NBS HANDBOOK 109
Aluminum Wire Tables
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NATIONAL BUREAU OF STANDARDS
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NATIONAL BUREAU Of STANDARDS MAR 1 4 1972
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UNITED STATES DEPARTMENT OF COMMERCE • Maurice H. Stans, ^ NATIONAL BUREAU OF STANDARDS* Lewis M. Branscomb, Director
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Aj2) . I O-j
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Aluminum Wire Tables
Editors
C. Peterson and J. L. Thomas National Bureau of Standards
Washington, D.C. 20234
H Cook The Aluminum Association
New York, N.Y. 10019
4 National Bureau of Standards Handbook 109
Nat. Bur. Stand. (U.S.), Handb. 109, 66 pages (Feb. 1972)
CODEN: NBSHA
Issued February 1972
Secretary
For sale by the Superintendent of Documents, U.S. Government Printing Office. Washington. D.C. 20402
(Order by SD Catalog No. C 13.11:109). Price 65 cents
Stock Number 0303-0903
Contents
i
T
Page
Foreword. v Abstract. vi Introduction. I Metric Units. I Conductivity. I Size Selection. Conductor Design and Selection. Mechanical Data. Data Development for the Aluminum Wire Tables.
Table I—Various Standard Values for Resistivity, Temperature Coef¬ ficient and Density of A1 Wire. 5
Tabl e 2— Conversion Table for Electrical Resistivities. 6 Table 3 — Wire Table, Solid Aluminum, EC-0— Data at 20 °C — English Units.
Tabi e 4 —Wiie Table, Solid Aluminum, EC-0 —Ohms per 1000 ft. 9 Table 5— Wire Table, Solid Aluminum, EC-0—Feet per Ohm. II Tabi e 6 —Wire Table, Solid Aluminum, EC-0 —Ohms per Pound. 13 Table 7 —Wire Table, Solid Aluminum, EC-0—Pounds per Ohm. 15 Table 8 —Wire Table, Solid Aluminum, EC-0— Data at 20 °C — Metric Units. 17
Table 9 —Wire Table, Solid Aluminum, EC-0 —Ohms per Kilometer... 19 Table 10 —Wire Table, Solid Aluminum, EC-0—Meters per Ohm. 20 Table 1 I —Wire Table, Solid Aluminum, EC-0 —Ohms per Kilogram... 22 Table 12 —Wire Table, Solid Aluminum, EC-0 —Grams per Ohm. 24 Table 13 —Wire Table, Solid Aluminum, EC-HI9—Data at 20 °C—
English Units. 26 Table 14 —Wire Table, Solid Aluminum, EC-H 19 —Ohms per 1000 ft... 28 Table 15 — Wiie Table, Solid Aluminum, EC-H 19 — Feet per Ohm. 30 Table 16 —Wire Table, Solid Aluminum, EC-H 19 —Ohms per Pound... 32 Table 17 —Wire Table, Solid Aluminum, EC-H 19 —Pounds per Ohm... 34 Table 18 —Wire Table, Solid Aluminum, EC-H 19—Data at 20 °C —
Metric Units. 36 Table 19 —Wire Table, Solid Aluminum, EC-H 19 —Ohms per Kilo¬
meter. 38
Table 20 —Wire Table, Solid Aluminum, EC-H 19— Meteis per Ohm... 39 Table 21—Wire Table, Solid Aluminum, EC-HI9 —Ohms per Kilo¬
gram . 41 Table 22 —Wire Table, Solid Aluminum, EC-H 19 —Grams per Ohm... 43 Table 23 —Stranded Aluminum Wire Table, EC-0—Data at 20 °C —
English Units. 45
Table 24 —Stranded Aluminum Wire Table, Alloy, EC —0—Data at 20 °C — Metric U nits. 47
iii
Page
Table 25 —Stranded Aluminum Wire Table, Alloy, EC —HI9—Data at
20°C — English Units. 49
Table 26 —Stranded Aluminum Wire Table, Alloy, EC-H19—Data at
20 °C —Metric Units. 51
Table 27 —Stranded Aluminum Wire Table, Alloy, 5005-H 19—Data
at 20 °C-English Units. 53
Table 28 —Stranded Aluminum Wire Table, Alloy, 5000-H 19— Data
at 20 °C—Metric Units. 55
Table 29 —Stranded Aluminum Wire Table, Alloy, 6201-T81 — Data at
20 °C-English Units. 57
Table 30 —Stranded Aluminum Wire Table, Alloy, 6201-T81 — Data at
20 °C—Metric Units. 58
IV
Foreword
The electrical distribution system in this country is increasing in both size
and capacity. Paralleling the growth of the system is an ever-increasing use of
aluminum transmission lines. To meet the need of the engineering profession
for reliable design information, NBS and the Aluminum Association have pre¬
pared these aluminum wire tables.
Data are presented on the conductivities and resistivities of both solid and
stranded wires of various sizes and composition, together with a variety of
other data of interest to the designer. Values are expressed in both U.S. Cus¬
tomary and International System (SI) Units.
Aluminum Wire Tables is a companion publication to NBS Handbook 100,
Copper Wire Tables, which has been for many years the standard reference
used in computing the behavior of transmission lines and devices that use copper
wire.
This publication is part of the continuing NBS efforts to provide reliable in¬
formation needed by the Nation’s scientists and engineers.
Lewis M. Branscomb, Director
v
Abstract
This handbook of aluminum wire tables is a companion publication to
NBS Handbook 100, Copper Wire Tables, a review of which is contained in
Part 1, Sections 1 and 2. Data are presented on the conductivities and resistivities
of both solid and stranded wires of various sizes and composition, together
with a variety of other data of interest to the designer of electrical equipment
and installations. Values are expressed in both U.S. Customary and International
System (SI) Units. Wire sizes involved are based on and restricted to those
manufactured and typically used in the United States. American Wire Gage
sizes are used for the smaller range of conductors from 56 gage through 4/0.
Larger conductors are sized on the basis of circular mil area. The alloy composi¬
tions included in these tables are EC-0 (annealed), EC-H19, 5005-H19, and
6201-T81; values are given over a temperature range of 0 to 100 °C.
Key words: Aluminum conductor; aluminum wire cables; conversion
factors; electrical conductivity; electrical conductor; electrical
resistivity; standard values; temperature coefficient.
Library of Congress Catalog Card Number LC 76-189993
ALUMINUM WIRE TABLES
Introduction
Use of aluminum as an electrical conductor began
prior to 1900, and its growth has paralleled that of
the electric power industry. During the first half of
the I900’s, the predominant usage was for industrial
and power station bus and overhead transmission
conductors. Subsequent expansion of use in other
areas, such as distribution, building wire, power cable,
communication cables, and utilization items such as
magnet wire, has made it desirable to present design
information to the engineering profession. Accord¬
ingly, wire tables have been prepared for The Alumi¬
num Association with Dr. D. L. Feucht, of Carnegie-
Mellon University, serving as consultant.
In developing these data, it was necessary to select
the conductor sizes which were appropriate and the
nominal conductivity which should be used, etc.
A brief explanation of some of these choices follows.
Metric Units
Data in these wire tables are presented both in
U.S. Customary (English) Units and in parallel
International System (SI) Units in view of world¬
wide trend to the latter unit system. This is in accord
with the current practices of the USA Standards
Institute (USASI), and U.S. National Bureau of
Standards (NBS), the Institute of Electrical and
Electronics Engineers (IEEE), and the American
Society for Testing and Materials (ASTM), and with
the Recommendations of the International Elec¬
trotechnical Commission (IEC).
Conductivity
The accepted measure of conductivity is the
International Annealed Copper Standard (IACS)
which is discussed in the National Bureau of Stand¬
ards Handbook 100, and is expressed in volume re¬
sistivity as 10.371 ohms-circular mil/ft. at 20 °C.
The conductivity of aluminum alloys commonly used
for electrical conductor is customarily expressed as a
percentage of I ACS.
Highest purity annealed aluminum has a conductiv¬
ity of 65 percent I ACS, but the practical combination
of available purity, fabrication, strength requirements,
etc., results in lower conductivity for commercial
products. These tables are based on the following
conductivities which conform with American Society
for Testing and Materials (ASTM) Specification
values.
Alloy Conductivity percent IACS
Resistivity
@ 20 °C
in ohms-cmil/ft.
EC-0 (annealed). 61.8 16.782
EC H19.. 61.0 17.002
5005-H19. St.5 19.385
620I-T81. 52.5 19.754
Size Selection
There is an extremely great variety of conductor
sizes available to the designer in aluminum con¬
ductors. The wire tables have been prepared using
the sizes which have gained general acceptance
and popularity.
American Wire Gage sizes are used for the smaller
range of conductors from 56 gage through 4/0.
The derivation and practical advantages of this set
of sizes are explained in National Bureau of Standards
Handbook 100, Part 1, Sections 1 and 2.
Large-size conductors of all types are typically
described by their cross-sectional area in circular
mils. ACSR (Aluminum Conductor, Steel Rein¬
forced) and stranded aluminum conductors with
EC-H19 alloy strands have traditionally been sized
on the basis of dc conductivity approximately equiv¬
alent to that of certain circular mil hard drawn copper
sizes. For example, cables using EC-H19 alloy
strands having a total area of 795,000 cmil have a
resistance per unit length very close to that of a
500,000-cmil copper conductor.
The introduction of 5005-H19 and 6201-T81
alloy conductors has usually been on the basis of
matching the diameter of already popular conductors.
1
The resulting circular-mil sizes are, therefore, those
which have been commercially introduced and accept¬
ed. The tables for conductors of these alloys, there¬
fore, show a mixture of even circular-mil sizes and
the sizes which result from diameter equivalency
of ACSR.
In all cases, sizes involved are based on the con¬
ductors which are manufactured and used typically
in the United States. Although metric values are
shown for all these conductors in accord with inter¬
nationally recognized units, conductor sizes which
are primarily European in origin have not been
included.
Conductor Design and Selection
The two major criteria for conductor selection are
conductance (or ampacity) and strength (or strength-
to-weight ratio). Conductance usually determines the
nominal size of the conductor while strength deter¬
mines the stranding and, to a lesser extent, the
material.
The traditional conductor for high-strength applica¬
tions is ACSR (Aluminum Conductor, Steel Rein¬
forced). Various strength-to-weight ratios can be
obtained by varying the ratio of steel to aluminum.
Where corrosion is a consideration, the core can be
either aluminized or aluminum clad. The aluminum-
clad core has the further advantage of adding
conductance. A second concept of high-strength conductor
utilizes high-strength aluminum alloy to replace
the steel in an ACSR. This conductor, ACAR
(Aluminum Conductor, Alloy Reinforced), can
be obtained in strength-to-weight ratios varying
from that for an all 6201 —T8 I alloy conductor to an
all EC-HI9 conductor. ACAR conductor is lighter
than an ACSR with the same strength-to-weight
ratio and, as one metal, has good corrosion resistance.
The conductance is better than an ACSR of the same
diameter.
A medium-strength conductor can be obtained
using 5005-H19 alloy alone or in combination with
EC or other alloys.
Alloy EC-HI9 conductor with the highest con¬
ductance for a given weight or diameter is often used
where strength requirements are not high.
Mechanical Data
There is a great deal of additional information
regarding the application of aluminum conductors
for tensional application such as overhead spans,
which is specialized in nature. Much of this infor¬
mation is available from The Aluminum Association
or from manufacturers of the product involved.
These data can supplement the basic physical property
data and computations contained in the wire tables
for specific engineering requirements.
Data Development for the Aluminum Wire Tables
Table 1.—This table lists various standard values
of resistance, constant-mass temperature coefficient
of resistance, and density of aluminum wire at various temperatures. The fundamental values used in
these calculations are those at 20° Celsius and were
supplied by The Aluminum Association. The values
may also be found in various ASTM standards dealing
with aluminum wire.
The values for both English and metric vol¬
ume resistivities are calculated from the equation
pT= pzo [l+a^i (T —20)], where pT = volume resis¬
tivity at temperature T, expressed in degrees Celsius,
p2o= value of p at 20°C. a2o= value of temperature
coefficient of resistance at 20 °C in reciprocal degrees
Celsius.
The values for the constant-mass temperature
coefficient of resistivity, o, are calculated from
the equation
=_1. ar 1/020+ ( T — 20)
where aT = value of o at temperature T expressed
in degrees Celsius, 020= value of o at 20 °C.
The mass density of the aluminum alloys consid¬
ered is the same to four significant figures. The vol¬
ume coefficient of thermal expansion is insignifi¬
cant over the range of temperature considered.
Table 2. — Factors are given in this table for comput¬
ing numerical values of resistivity in any of the usual
sets of units when its value is known in another
set. Numerical values of percentage conductivity
are not reduced to decimal fractions. For example,
the numerical value for 98.3 percent conductivity
is used as 98.3 not 0.983 in the conversions.
Tables 3 and 13.— The tables give complete data
for type EC-0 and EC-H19 aluminum wire on re¬
lations of length, mass and resistance at 20 °C.
The fundamental constants used in calculating
the data are those given in Table 1. The wire diam¬
eters appropriate to the American Wire Gage were
2
derived from the ASTM Handbook and are not cal¬
culated by the computer from the usual formula.
The data are calculated using the following formulas,
where the symbols are:
p2o= volume resistivity at 20 °C in
ohm-cir mil/ft
c/=wire diameter at 20 °C for round
wire in mils
A in = cross-sectional area at 20 °C in
square inches
D = density in lb/in3
Ain= (7rd2X 10-«)/4
Ac.m. =/4in/(7.853982 x 10 7)
[ohm/1000 ft] = (p,„x 103)Mc.m.
[ft/ohm] = I03/[ohm/l000 ft] [lb/1000ft] = DX/4lnx 12 x 103
[ft/lb] = 103/[lb/1000 ft]
[ohm/lb] - [ohm/1000 ft]/[lb/1000 ft]
rib/ohm] = 1/[ohm/lb]
The computer program uses these formulas and the
constants from Table 1 to calculate the data for each
wire size to seven significant figures. Prior to printing
the output data, the computer rounds each value to
four significant figures.
Tables 4-7 and 14-17. —These tables give values of
various constants for EC-0 and F.C-H 19 wire versus
temperature over the range from 0 °C to 100 °C for
each wire size. The changes in the value of the mass
per unit length and length per unit mass are not in¬
cluded in the calculations because they exhibit
negligible change with temperature over the range
considered.
The values are calculated using the constant-mass
temperature coefficients of resistance at 20 °C given
in Table 1. The coefficient is that appropriate to the
changes in value for a piece of wire, the physical
dimensions of which are fixed at 20 °C and which is
subsequently measured at various other temperatures.
This corresponds to measuring the resistance of a
sample where length is known at 20 °C and where the
potential terminals are permanently attached to the
wire. Similarly, this corresponds to measurement of
the resistance of a coil of wire at various temperatures
where no measurements are made of either the length
or the diameter but the weight may be measured. In
contrast, the values may be calculated for a piece of
wire which has the stated dimensions at all tempera¬
tures. This requires using the constant-volume
temperature coefficient of the resistance.
The following formulas are used for computation,
where the symbols used are the same as identified
previously:
[ohm/1000 ft], = [(p20X 103)Me.m.]X[ 1 +ai0(T-20)]
[ft/ohm],•= 103/[ohm/1000 ft]r
[ohm/lb]7 = [ohm/1000 ft]r/[f>xTinxi2xl03]
|lb/ohm]7 = l/[ohm/lb]r
As in the tables above, all calculations are made to
seven figures by the computer and rounded to four
significant figures prior to output printing.
Tables 8 and 18. —These tables are similar to Tables
3 and 13 except that the values are given in metric
units for each wire size at 20 °C. For reference, the
values of diameter in millimeters and cross-sectional
area in square millimeters are also included for each
wire size.
The values are not simply the values of Tables 3
and 13 converted to metric units but are calculated
directly from the metric constants of Table 1 and the
wire diameters in mils. The formulas used are as
follows where the constants are:
D = mass density at 20 °C in g/cm3
d„,ii= wire diameter in mils at 20 °C
dmm= wire diameter in millimeters at 20 °C
A mm = cross-sectional area in square milli¬
meters
Pl>o= volume resistivity at 20 °C in ohm-
mm- per meter
dmm~ dm\\ x 25.40005 x 10~3
A mm ^mm IA [ohm/km] = (p20 X 103)lAmm
[m/ohm] = 103/[ohm/km]
[kg/km] = DX Amm [m/g] = 1/ [kg/km]
[ohm/kg] = [ohm/km] x [m/g]
[g/ohm]= 103/ [ohm/kg]
As above, calculations are made to seven figure
accuracy and each value subsequently rounded to four
significant figures.
Tables 9-12 and 19-22.— These tables give various
values for EC-0 and EC-H19 wire in metric units for
several temperatures over the range from 0 °C to
100 °C. The values of diameter in millimeters and
cross-sectional area in square millimeters are also
included for each wire size.
The values are calculated using the metric constants
from Table 1 and the wire diameters in mils. The
formulas are as follows where the symbols are the
same as those given in the discussion of Tables 8 and
18.
3
443-213 0 - 72 -2
[ohm/km]r= [(p2»x 10:i)Mmm]
X [1 +a,,,(7-20)]
[m/ohm]7= 10:i/ [ohm/km] T [ohm/kg]t — [ohm/km]r/(D x Amm)
[g/ohm]r= I03/[ohm/kg]r
As before the calculations are carried out with
seven figure precision and the values are rounded to
four significant figures before printing.
Tables 23-30.— These tables present values of
resistance and mass per unit length at 20 °C for
stranded aluminum wire cables. Cables made from
four different types of aluminum. EC-0, EC-H19,
5005 HI9, and 6201-T8I, have been included.
When increased flexibility in a conductor is desired,
a stranded cable is normally used, particularly where
conductors of large cross-section are concerned.
Stranded cables consist of many small wires in par¬
allel twisted together. The data in these tables refer
to the “concentric lay” type of stranding since it is
the most commonly used. Concentric lay conductors
are described in detail in ASTM B-231.
The tables presented here include four stranding
classes, AA, A, B, and C for the EC-0 and EC-H 19
cables. For the 5005-H19 and 6201-T81 cables
only the AA and A classes are included.
Various special situations arise in calculating data
for stranded conductors. The outside diameter of
every conductor has been calculated using an input
to the computer program only the number and diam¬
eter of the strands. The cable diameter for a 7 wire
cable is just 3 times the strand diameter, for a cable
of 19 wires it is 5 times the strand diameter, etc. The
program derives the appropriate factor for each cable
which is then multiplied by the strand diameter to
obtain the outside diameter.
In calculating the resistance and mass per unit
length of the cables the effect of the twisting of the
wires and the geometry of the cable itself must be
considered. Stranding factors used for these tables
are found in Table IV of ASTM B-231.
In calculating the resistance and mass per unit
length for a particular nominal size, the area might
be taken as the nominal area for each cable. Alter¬
natively, the exact area of each stranding class could
be calculated and the results averaged. For these
tables, however, it was found convenient to calculate
the area used in the formulas by using the data for the
number and diameter of strands associated with the
least flexible strand class within a particular size.
For example, in Table 23, the values for 2,000,000
cmil cable are based on the exact area to 7 figures of
the Class A stranding. To the extent that the areas of
different strandings of the same nominal size are
equivalent, the values of resistance and mass per unit
length apply to all the strand classes.
The fundamental constants used in calculating the
values in English units are found in Table 1. The
formulas used are presented below, where the symbols
used are:
P’o= resistivity in ohm-cir mil/ft
D — density in lb/in{
^c.m.= area in cir mil
[ohm/1000 ft]= [p-io X \03lAc m ] x correction factor
for twist
rib/1000 ft] = [O x Ac m x 7.853982 x 10 7 x 12 x
10:i] x correction factor for twist
A correction factor for twist of 2 percent is entered
as 1.02, of 3 percent as 1.03, etc.
The fundamental constants used in calculating the
values in metric units are from Table 1. The outside
diameter of each cable is calculated by converting
strand diameter in mils to the diameter in millimeters.
The area is then calculated by using the strand diam¬
eter in millimeters to 7 significant figures and the
number of wires. The formulas used are presented
below, where the symbols are:
P2o = resistivity in ohm-mnT/m
D= density in g/cm3
A mm = area in mm2
[ohm/kml = [(p2o x 103)//lmm] x correction fac¬
tor for twist
[kg/km] = \D x /lmm] x correction factor for
twist
The computer makes all computations using the
formulas and constants specified above to seven
figure precision. All values are rounded to four figures
prior to being printed out.
4
Table 1 — Various Standard Values for Resistivity, Temperature Coefficient and Density of A1 Wire
Temp °C
Alloy and Temper
EC-0
61.8%
EC-H19
61%.
5005-H19
53.5%
6201-T81
52.5%
Resistivity in ohm — cir mil per foot
0. 15.413 15.632 18.016 18.383
15. 16.440 16.659 19.043 19.41 1
20. 16.782 17.002 19.385 19.754
25 17.124 17.345 19.727 20.097
30. 17.467 17.687 20.069 20.440
Resistivity in ohm-mm2 per meter
0. 0.025622 0.025986 0.029951 0.030561
15. 0.027329 0.027695 0.031657 0.032270
20. 0.027898 0.028264 0.032226 0.032840
2 5 0.028467 0.028834 0.032795 0.033410
30. 0.029036 0.029403 0.033364 0.033980
Temperature Coefficient of Resistance per °C
0. 0.00444 0.00438 0.00380 0.00373
15. 0.00416 0.00411 0.00359 0.00353
20. 0.00408 0.00403 0.00353 0.00347 25 0.00400 0.00395 0.00347 0.00341
30. 0.00392 0.00387 0.00341 0.00335
Density at 20 °C (1)
Grams/cm3... 2.703 2.703 2.703 2.703 Lbs/in1. 0.09765 0.09765 0.09765 0.09765
(1) For the purposes of electrical calculations, ASTM standards
have adopted the densities used in the calculation of these
tables. The standards are:
Alloy: Standard
EC. B262
5005. B396
6201. B398
For greater precision, where required, the density of 5005 and
6201 alloy may be adjusted. (5005,2,697; and 6201,2.691.)
5
Table 2 —Conversion Table for Electrical Resistivities
Given values
at 20 °C in
To obtain values in —
Ohm g/m- multiply by
Ohm lb/mi- multiply by
Ohm mm2/m multiply by
Microhm-cm multiply by
Microhm-in multiply by
Ohm-cir
mil/ft multiply by
Percent
conductivity
divide into
Ohm g/m-. 5709.8 0.36996 36.996 14.566 722 55 4.6600
Ohm lb/mi2. 000017514 000064795 00064795 0.00255 10 0.038976 ->6 609
Ohm mm'-7m 2 7030 1 5.434 100 39.371 601.53 1.7241
Microhm-cm. 002703 1 54.34 .01 .39371 6.01 53 172.41
Microhm-in. 0.068656 392.01 .0254 2.54 1 5.279 67 879
Ohm-cir mil/ft... 00044935 25 657 .0016624 0 16624 .065451 1037.1
Percent conductivity... Divide into Divide into Divide into Divide into Divide into Divide into
4.6600 26,609 1.7241 172.41 67.879 1037.1
6
Table
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Tab
le
7 —
Wir
e T
able
, S
oli
d A
lum
inum
, E
C-0
—P
ou
nd
s p
er
Oh
m —
Co
nti
nu
ed
u o
0.00
0006
204
0.00
0003
818
0.00
0002
541
0.00
0001
615
0.0
000009685
0.
0000
0066
15
0.0
000003967
0.0
000002512
0.0
000001588
0.0
0000009775
0.0
0000006276
0
.00
00
00
03
97
2
0.0
0000002479
0.0
0000001530
0.0
00000009927
0.0
00000006109
0.0
00000003783
0
.00
00
00
00
23
83
u to r- 0.
0000
0672
1 0
.00
00
04
13
6
0.0
00002753
0
.00
00
01
75
0
0.0
00
00
10
49
0
.00
00
00
71
66
0.0
00
00
04
29
8
0.00
0000
2721
0.
0000
0017
21
0.0
00
00
01
05
9
0.0
00
00
00
67
99
0.0
0000004302
0.0
00
00
00
26
86
0.0
0000001658
0.0
0000001075
0
.00
00
00
00
66
18
0
.00
00
00
00
40
99
0
.00
00
00
00
25
82
1
U o «o 0
.00
00
07
33
2
0.0
00
00
45
12
0.0
00003003
0
.00
00
01
90
9
0.0
00001145
0
.00
00
00
78
18
0.0
00
00
04
68
8
0.0
00
00
02
96
9
0.0
00
00
01
87
7
0.0
00
00
01
15
5
0.0
00
00
00
74
17
0.0
0000004693
0.0
00
00
00
29
30
0.0
0000001809
0
.00
00
00
01
17
3
0.0
00
00
00
07
22
0
0.00
0000
0044
71
0.0
00
00
00
02
81
7
CO
E -C o <u a C/5
•a G 3 O
Ph
25 °
C
0.0
00008065
0
.00
00
04
96
3
0.0
00
00
33
03
0
.00
00
02
09
9
0.0
00
00
12
59
0
.00
00
00
85
99
0.0
00
00
05
15
7
0.0
00
00
03
26
5
0.0
00
00
02
06
5
0.00
0000
1271
0
.00
00
00
08
15
9
0.0
00
00
00
51
63
0.0
00
00
00
32
23
0
.00
00
00
01
98
9
0.0
00
00
00
12
90
0
.00
00
00
00
79
41
0
.00
00
00
00
49
18
0
.00
00
00
00
30
98
U o
O
0.0
00
00
82
29
0
.00
00
05
06
5
0.0
00
00
33
71
0.0
00002142
0.0
00001285
0.0
000008774
0.0
000005262
0.0
000003332
0.0
000002107
0.0
000001297
0.0
0000008325
0
.00
00
00
05
26
8
0.0
0000003289
0.0
0000002030
0.0
0000001317
0
.00
00
00
00
81
03
0
.00
00
00
00
50
18
0.0
00000003161
u o
O 0.00
0008
961
0.0
00
00
55
15
0
.00
00
03
67
0
0.0
00
00
23
33
0.0
00001399
0
.00
00
00
95
54
0.0
000005730
0.0
000003628
0.0
000002294
0.0
000001412
0
.00
00
00
09
06
5
0.0
00
00
00
57
36
0.0
00
00
00
35
81
0
.00
00
00
02
21
0
0.0
0000001434
0
.00
00
00
00
88
23
0
.00
00
00
00
54
64
0
.00
00
00
00
34
42
Dia
met
er
at 2
0 °C
(m
ils)
o o o o o o in-^ooinriq
rn r )
'OCO’J-O' I-" •/-) Tt CT On
XX OMTiON X C C ND O-l T}-
o© o o o ©
Gag
e Tt rr ^ Tf rf in'sor^ooa'O
TT t/~> — (N r^. IT) »n Tl in ini/) IT)
16
Tab
le 8 —
Wir
e T
able
, S
oli
d A
lum
inu
m,
EC
-0—
Dat
a at 2
0 °C
—M
etr
ic U
nit
s
6 jz o
o
—UOT^O
888888 888888 8 o o o o o < cr\ r- —' r- on i «—■ on oo q on i. fNOaOfN'
)(NvOM • © o O' • otu
on un q on O' o
o _ q oo on oo on NO q
O O ©ON on on on oo 04 — UUONO r^i — '—'
-^M^OOOO NO 00 OO NO NO 04 CN^ONOONDT rr 04 —
NO O NO q C4 _I -ooooo ooooo
E cd u 00 o ra
E o
O
oooo oooo
o o
© d
04 O' un o q ON —< 04 o o
fN NO — hr^ih' no oo 04 i on un On ■ © © © ■
1^000- q 04 q ON NO —1 mr^ONd-ONX 04 on n/n On q on
oddddd dodo - ri
r4 vo no
UiqvNrtNri
oi d o< un q- 00 04 on
- on NO ©
r NO ^ On ■i q on 04 i 04 on no
00 NO 00 o O un
NO O
ss 04 q 3S
a
« E
OmN^iNOTO vO(N(N Xm(N q no oo © q on — rj 04
OMNDUTf >/N UN 00 — 04 < Tt ro rf On E'- < ON q un NO 00 -
888888 888885
UOvUM^tN X^fOXOM mb'Cir'iTiTf
o o o o o ©
O — NO umuxxu Noooo^or- un r" oo —< q O' o o o — —• ~
On On 00 NO «0 O on 04 »0 O 'sO on 04 00 NO q NO 04 04 ON q «0 f"
On 00 —< On O' O OO OvdTJOOX 00 —< q 00 04 00
— O 00 00 O4 0\^0-- NO UN O' ON 04 q
OOOOOO OOOOOO OOOOOO OOOOOO OOOOOO o —■ —* —■ 04 04 ON un O' On —
c/5 «
E « 2 S
£3 «s
a
00 on On q On q
NO o- On d 04 00 q O' q v£> no q q on
ON 00 00 rq NO NO 00
ON ON oi q Tj" O 00 04 00 q — On OJ04r-^H-H
00 O' 04 q 04 04 © -^ on On un no
04 O- no U"i OO 04 0«0d-0)04 04
04 O OO 04 04 U 'T O 04 ON 04 04 ON NO
oq^ooo'io
NC «/N —' q N/N ON NO ro ^ 04 NO O TfNq OO 04 O; Tf
Tt ro 04 oi <
O' NO fO 00 ro 04 NO ON ON 00 NO
< O' ON >/N ON q « 00 NO UN q ON
NO 04 q ON O UN NO no r- o- oo o 0-<00l0X 04 04 — —i ^ O
-ddodd dddddd
q no>o -d d- © on ON 04 O' Q\ Tf 04 q O' no no -rr ro 04 ooooo © © © © ©
C/5 P flj *P
'-ir^NOOX- oo r' no un q q O —1 04 ON q «/N On 00 O' NO UN q
OO -q O O; 04 ON
un 00 —i NO 00 On no NO o O O- on ON O NO rj- ro 04
04 00 04 NO '
O' OO O 04 no ro O' ro 04 ON O- NO 04 ro OO NO
04 q ON NO ON 04
O' 00 ON OO q q o X O On O-
* ON O- no 0 04 04--- OOOOO
u u 0> V
^ a> g E 5 o
O
— rt NO ro no 04 O 04 o o m o — 04 ON UN 00 04
04 04 0-NOOOO- O 00 CO — O- ON NO 04 —i 04 NO 04 04 ON q NO NO 00
OOOOOO OOOOOO
NO ON q 00 Tf q d’ — vO On q oi © on NO © NO on
I 04 04 ON
O' 04 on on o O ON m 04 O 04 q q q q q
q- no NO OO O on O OO NO-O oxomo-
qooqoqq
on NO d u-i d O' q CO un On NO 04 ON q 105 NO X
04 O' VO) 04 ON 0vx<00- 0^0040 — — — 04 04
cd E Si E < a*
ON O O' rq O O^
rO 00 04 O' 04 NO •Oi 04 O O' 04 04 04 04 i ^
O' O NO O' O NO VO no O' m non ro
— —I OO OO O' 04 CO NO VO O 04 00 NO 04 —h ro NO O
NO NO ■'T CO 04 04
ON — ON 04 00 O 04 CO 00 •/TO’3-04N/~i^-. NO ro O 00 NO
NOmXUT- -tTXTOJX —i 04 »0 O NO 04 TffntsrJ--
o4Tfr"NO-HT* 04 © q- o o 04 © 00 NO N^i q* ro ^ © © © © ©
q- — on T' no •O - X NO 04 •O © NO 04 O (N 04 - - - OOOOO
<—<©©© ©oooo© ©oo©©© oooo©
<D
i E
5
OOOOOO NO q O' ro — © on © © © on r-
S© © © 04 oo m
oo © no> »oi q- q NO q 04 04 rO NOi
O'O'NONoicooi — d on oo o- vo
. —> •oNoq 04 OO 04 — NO NO 00qNOqNOO4
>/^ noi q- q- m co
S© © © © © 00 q 04 On 00
© 00 © V-) 04 04 On Nyq rq © 00 no
04 04 04 04 *—< •—<
> © © ON OO _)-q-o4 •O0NNO04- — q 04 — © on x
ON no O N^N O' On ro 04 q © q on ojqo-in© rq p «vq u-n q q dddddd
O' © © © 04 ON © 04 © ON © o O' q no on © o 04 0 q NO 04 00 n/n 04 © X NO q 04 - fq ON 04 04 04 04 —
dddddd ddddd
On © —H 04 ON q •^N'Ot^-oOON© — 04 ON q •/-) \£) O' OO ON © —• 04 O) q VN'O O' X ^ >—1 »—1-- — -04 04 04 04 04 04 04 04 04 04 ON ON ON ON Oi ON Oi Oi ON
a
>8°-< ON q UN NO O' 00
©©©©©© © N^N © NTi © UN UN q q ON ON 04
17
0.1
01
6
I 0.0
08107
I 34
41.
I 0
.29
06
I 0.
0219
1 I
45.6
3 I
1570
00.
I 0
.00
63
68
Table
8 —
Wir
e T
able
, S
oli
d A
lum
inu
m,
EC
-0—
Dat
a at 2
0 °
C—
Met
ric
Unit
s —
Co
nti
nu
ed
Gra
ms
per
oh
m
0.00
3733
0.
0022
97
0.00
1529
0.
0009
717
0.00
0582
7 0.0
003980
0.00
0238
7 0.
0001
511
0.0
00
09
55
7
0.00
0058
81
0.0
00
03
77
6
0.0
00
02
39
0
0.00
0014
92
0.0
00
00
92
08
0.
0000
0597
3 0.0
00003676
0.0
00002276
0
.00
00
01
43
4
Oh
ms
per
kil
og
ram
2679
00.
4353
00.
6540
00.
1029
000.
17
1600
0.
2512
000.
4189
000.
66
1600
0.
1046
0000
. 17
0000
00.
2648
0000
. 41
8500
00.
6703
0000
. 10
8600
000.
16
7400
000.
27
2000
000.
43
9300
000.
69
7300
000.
Met
ers
per
gra
m
Q oo m OOON'T
<J\ en \6 © lOUaN — lO 00 <n «/■) oo kq as
on tN rf r i rr m On t-" C" Q\ ^r M (N t}- in U
00 cNOO^-i tOOia\ - t C' Cl oo o
— —i <n m
Kil
ogra
ms
per
kil
om
eter
0.0
1678
0
.01
31
6
0.0
1074
0.0
08560
0.0
06629
0.0
05479
0.0
04243
0.0
03376
0
.00
26
84
0.0
02106
0
.00
16
88
0
.00
13
42
0.00
1061
0.0
008333
0.
0006
711
0.0
005265
0.0
004143
0
.00
03
28
8
Met
ers
per
oh
m
0.22
25
0.17
45
0.14
24
0.11
35
0.08
791
0.07
265
0.0
5626
0.0
4477
0
.03
56
0
0.02
793
0.0
22
38
0
.01
78
0
0.0
1407
0.0
1105
0.0
08900
0
.00
69
82
0
.00
54
94
0.
0043
61
Oh
ms
per
kil
om
ete
r
OS CD On O O On <N <N O 00 \0 thOOO^C
to r- OC —< rn
© © © © © © r- rf G\ G\ OO Cmooo^-H u n oo T) tj- -H M (N ro Tf in
© O © © © © O O O O Q O -h in "}• n O ci
O N Cl M a\ r— as — tj- oo cni
Are
a (s
q m
m)
0.0
06207
0
.00
48
69
0.0
03973
0
.00
31
67
0
.00
24
52
0
.00
20
27
0.0
01570
0.0
01249
0.
0009
931
0.00
0779
1 0.0
006243
0
.00
04
96
6
0.0
00
39
24
0.0
003083
0.0
002483
0
.00
01
94
8
0.0
001533
0.0
001217
Dia
met
er
(mm
)
0.0
88
90
0.0
7874
0
.07
11
2
0.0
6350
0
.05
58
8
0.0
5080
0.0
4470
0
.03
98
8
0.0
35
56
0.0
3150
0.0
2819
0.0
2515
0.0
22
35
0.
0198
1 0
.01
77
8
0.0
15
75
0.0
1397
0.0
1245
Gag
e r<) ^ 't T ’t ^ •n'sDucoaiO Tf Tf Tf ^ UT
^cirn in^o i/") i/~> i/c
18
Table 9 —Wire Table, Solid Aluminum, EC-0 —Ohms per Kilometer
Gage Diameter at 20 °C (mm)
Area at 20 °C (sq mm)
Ohms per kilometer at—
0°C 20 °C 25 °C 50 °C 75 °C 100 °C
500,000 17.960 253.3 0.1011 0.1101 0.1124 .1236 .1348 .1461
450,000 17.040 228.0 0.1124 0.1224 0.1249 .1373 .1498 .1623
400,000 16.070 202.7 0.1264 0.1376 0.1404 .1545 .1685 .1825
350,000 15.030 177.3 0.1445 0.1573 0.1605 .1766 .1926 .2087
300,000 13.910 152.0 0.1686 0.1835 0.1873 .2060 .2247 .2434
250,000 12.700 126.7 0.2023 0.2202 0.2247 .2472 .2696 .2921
0000 11.680 107.2 0.2390 0.2602 0.2655 .2920 .3186 .3451 000 10.400 85.01 0.3014 0.3282 0.3349 .3683 .4018 .4353
00 9.2660 67.43 0.3800 0.4137 0.4222 .4644 .5066 .5488
0 8.2520 53.49 0.4790 0.5216 0.5322 .5854 .6386 .6918
1 7.3480 42.41 0.6042 0.6578 0.6713 .7384 .8055 .8726
2 6.5430 33.62 0.7620 0.8297 0.8466 .9313 1.016 1.101
3 5.8270 26.67 0.9609 1.046 1.068 1.174 1.281 1.388 4 5.1890 21.15 1.211 1.319 1.346 1.481 1.615 1.750
5 4.6200 16.77 1.528 1.664 1.698 1.868 2.037 2.207 6 4.1150 13.30 1.927 2.098 2.141 2.355 2.569 2.783 7 3.6650 10.55 2.428 2.644 2.698 2.968 3.237 3.507 8 3.2640 8.367 3.062 3.334 3.402 3.742 4.083 4.423
9 2.9060 6.631 3.864 4.207 4.293 4.722 5.151 5.580 10 2.5880 5.261 4.870 5.302 5.410 5.951 6.492 7.033 11 2.3040 4.168 6.147 6.693 6.829 7.512 8.195 8.877
12 2.0520 3.308 7.745 8.433 8.605 9.465 10.33 11.19 13 1.8920 2.627 9.754 10.62 10.84 11.92 13.00 14.09 14 1.6280 2.082 12.31 13.40 13.67 15.04 16.41 17.77
15 1.4500 1.652 15.51 16.89 17.23 18.95 20.68 22.40 16 1.2900 1.308 19.59 21.33 21.77 23.95 26.12 28.30 17 1.1510 1.040 24.64 26.83 27.38 30.11 32.85 35.59 18 1.0240 0.8229 31.13 33.90 34.59 38.05 41.51 44.97 19 0.9119 0.6531 39.23 42.72 43.59 47.95 52.31 56.66 20 0.8128 0.5189 49.38 53.77 54.86 60.35 65.83 71.32
21 0.7239 0.4116 62.25 67.78 69.17 76.08 82.99 89.91 22 0.6426 0.3243 79.00 86.01 87.77 95.54 105.3 114.1 23 0.5740 0.2588 99.00 107.8 110.0 121.0 132.0 143.0 24 0.5105 0.2047 125.2 136.3 139.1 153.0 166.9 180.8 25 0.4547 0.1624 157.8 171.8 175.3 192.9 210.4 227.9 26 0.4039 0.1281 200.0 217.8 222.2 244.4 266.7 288.9
27 0.3607 0.1022 250.8 273.0 278.6 306.5 334.3 362.2 28 0.3200 0.08045 318.5 346.8 353.9 389.2 424.6 460.0 29 0.2870 0.06470 396.0 431.2 440.0 484.0 527.9 571.9 30 0.2540 0.05067 505.6 550.6 561.8 618.0 674.1 730.3 31 0.2261 0.04014 638.4 695.1 709.3 780.2 851.1 922. 32 0.2032 0.03243 790.1 860.3 877.8 965.6 1053. 1141.
33 0.1803 0.02554 1003. 1092. 1114. 1226. 1337. 1449. 34 0.1600 0.02011 1274. 1387. 1415. 1557. 1698. 1840. 35 0.1422 0.01589 1612. 1756. 1791. 1971. 2150. 2329. 36 0.1270 0.01267 2023. 2202. 2247. 2472. 2696. 2921. 37 0.1143 0.01026 2497. 2719. 2774. 3052. 3329. 3606. 38 0.1016 0.08107 3160. 3441. 3511. 3862. 4213. 4564.
39 0.08890 0.006207 4128. 4494. 4586. 5045. 5503. 5961. 40 0.07874 0.004869 5262. 5729. 5845. 6430. 7015. 7599. 41 0.07112 0.003973 6450. 7023. 7166. 7882. 8598. 9315. 42 0.06350 0.003167 8090. 8809. 8989. 9887. 10790. 11680. 43 0.05588 0.002452 10450. 11380. 11610. 12770. 13930. 15090. 44 0.05080 0.002027 12640. 13760. 14050. 15450. 16850. 18260.
45 0.04470 0.001570 16320. 17770. 18140. 19950. 21760. 23580. 46 0.03988 0.001249 20510. 22340. 22790. 25070. 27350. 29630. 47 0.03556 0.0009931 25800. 28090. 28660. 31530. 34390. 37260. 48 0.03150 0.0007791 32890. 35810. 36540. 40190. 43840. 47490. 49 0.02819 0.0006243 41040. 44690. 45600. 50160. 54710. 59270. 50 0.02515 0.0004966 51590. 56180. 57320. 63050. 68780. 74510.
51 0.02235 0.0003924 65300. 71100. 72550. 79800. 87050. 94300. 52 0.01981 0.0003083 83110. 90500. 92340. 101600. 110800. 120000. 53 0.01778 0.0002483 103200. 112400. 114700. 126100. 137600. 149000. 54 0.01575 0.0001948 131500. 143200. 146200. 160800. 175400. 190000. 55 0.01397 0.0001533 167200. 182000. 185700. 204300. 222800. 241400. 56 0.01245 0.0001217 210600. 229300. 234000. 257400. 280800. 304200.
19
443-213 0 -72-4
Tab
le
10
—W
ire
Table
, S
oli
d A
lum
inu
m,
EC
-0—
Mete
rs p
er
Oh
m
u
o o
h- (N X r, OO rh
oc *— rf o- — so © «n Tt on
o^
00 K fN VN SO 00 On On M T T C 00 (N 00 ^ i On 04 04 —c t—. —
so»n^Tf^-—,
© —^ on ON in sd M C IT, iTi x M cin^r^inn
© On SO or 04 ©> ^ on 04
on oi oi on ©> sd it —Xb'in
>n ^ © tj- in 04 SO eq ~ 04 SC ©
Ttinodoir^-^- 'T rb 04 04 i—< >—i
in ^ 04 O' 04 04 © Os O') 00 © ^ O; ON in ON Tf
^ od sd »n on
tj- on on in © © © oo O' •—< O- ON © OO
04 04 ■—< -—< ©
ON in T ON ON -( © ON ON 04 O' Os ONit OJ^tb- © m Tf ON 04 04
©©©©©©
U
»n O'
c-Vi Tf ri 6 a\ -HCnO\iriO
O' so vs «n r}- on
On On rf sd r-i Tt on x O' © Tf x — "T on in 04 on r^M -
SO 04 00 ON On Os
© On © on 00 X^ONX©Tt
»n © »n —; © © 00 On on
rf Tt oi sd sd ©> On *n bi On b~ sp
O' 00 Tf ON 04 ON ON 04 © •—* «—<
00 00 © rt Os in "t rN rN 04 ^ r-
•n O' ON ON © »n on O' on in in q q un q 0 0
04 On O' >n ^ on
— in 'T on in © OsinONoor-Tf Os on 00 rt -q On
04 04 -—< >—« 1—< ©
00 00 04 ON ON b 00 in © © b rr 00 © © on O; n Tt ON ON 04
©©©©©©
2
C3
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20
Table
10
—W
ire
Table
, S
oli
d A
lum
inu
m,
EC
-0—
Mete
rs p
er
Oh
m —
Co
nti
nu
ed
u
o o
0.1
677
0
.13
16
0.1
074
0
.08
55
8
0.0
66
28
0.0
5477
0.0
42
42
0
.03
37
5
0.0
26
84
0.0
2105
0
.01
68
7
0.0
13
42
0.0
10
60
0
.00
83
31
0
.00
67
10
0
.00
52
64
0
.00
41
42
0.0
03288
75 °
C
0.1
81
7
0.1
426
0
.11
63
0
.09
27
1
0.0
71
80
0
.05
93
4
0.0
4595
0
.03
65
6
0.0
29
07
0
.02
28
1
0.0
18
28
0
.01
45
4
0.0
11
49
0.0
09025
0
.00
72
69
0
.00
57
02
0
.00
44
87
0
.00
35
62
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U o
O
0.1
982
0.1
555
0
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69
0.1
011
0
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83
2
0.0
64
73
0.0
50
13
0.0
3989
0
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17
2
0.0
24
88
0
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99
4
0.0
15
86
0.0
12
53
0
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45
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07929
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0
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48
95
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03885
a r u 4> 0) s U
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0
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55
14
0
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7
0.0
3489
0
.02
73
7
0.0
21
93
0
.01
74
5
0.0
13
78
0
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08
3
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08
72
2
0.0
06842
0
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53
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u
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^ <T) */“> U-) Tt u-'i os \c r 4 Tfr rsi r- n c - x c Nh-hhOO © © © © © © 0
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0
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17
80
0.0
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07
0
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10
5
0.0
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0
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69
82
0
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54
94
0.0
04361
u
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0.2
423
0
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01
0
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50
0
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36
0
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57
2
0.0
7911
0.0
6126
0
.04
87
5
0.0
3876
0.0
3041
0
.02
43
7
0.0
19
38
0.0
15
32
0
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20
3
0.0
09
69
1
0.0
07602
0.0
05982
0.0
04748
Mete
rs p
er
gra
m a
t 20 °
C
O oo m Os 00 On
a\»nrfi'^d(N O' -H IOOO
<n w-j oo vo os
iG'vbri'triTt r^ow^r-ONri- (SMfhTf inC
00 rigoo)^^ Os Tj- oo rf © - r-, f\| ff ,
Kil
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ms
per
kil
om
ete
r at
20 °
C
0.0
1678
0
.01
31
6
0.0
1074
0.0
08560
0
.00
66
29
0.0
05479
0.0
04243
0.0
03376
0
.00
26
84
0.0
02106
0.0
01688
0
.00
13
42
0.0
01
06
1
0.0
008333
0
.00
06
71
1
0.0
005265
0.0
004143
0.0
003288
Dia
mete
r at
20
°C
(m
m)
0.0
8890
0
.07
87
4
0.0
71
12
0.0
6350
0.0
5588
0.0
5080
0.0
4470
0
.03
98
8
0.0
35
56
0.0
3150
0.0
2819
0
.02
51
5
0.0
22
35
0.0
1981
0
.01
77
8
0.0
15
75
0
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39
7
0.0
12
45
Gag
e OsO — cdmTt
Tf Tf Tj- Tf Tfr lAl'Ob'OOO'O •'T -'T "'T rj- i/“i «/") *0 t/~» •/“)
21
Table
1 1
—W
ire
Table
, S
oli
d A
lum
inu
m,
EC
-0 —
Oh
ms
per
Kil
og
ram
Oh
ms
per
kil
ogra
m a
t—
10
0 °
C 0
.0002133
0.0
002633
0.0
003332
0.0
004353
0.0
005925
0.0
008531
0.0
01191
0.0
01894
0.0
03011
0
.00
47
85
0.0
07612
0.0
1211
0.0
1925
0.0
3061
0
.04
87
0
0.0
77
41
0.1
230
0.1
956
0.3
11
3
0.4
94
5
0.7
87
9
1.2
51
1.9
84
3
.15
8
5.0
16
8
.00
6
12
.66
20.2
1
32
.10
5
0.8
5
80
.82
130.1
2
04
.4
32
6.7
5
19
.4
834.2
1311.
21
15
. 3
27
0.
53
32
. 8
49
8.
13
02
0.
20
98
0.
33
85
0.
54220.
85
31
0.
13
00
00
. 2
08
30
0.
75 °
C 0.0
00
19
69
0
.00
02
43
1
0.0
00
30
75
0
.00
04
01
8
0.0
00
54
70
0.0
007875
0.0
01
09
9
0.0
01
74
9
0.0
02779
0.0
04417
0.0
07027
0
.01
11
8
0.0
1777
0
.02
82
5
0.0
4496
0.0
7146
0
.11
35
0
.18
05
0.2
874
0
.45
65
0
.72
73
1.1
55
1
.83
1
2.9
15
4.6
30
7
.39
1
11
.69
1
8.6
6
29.6
3
46.9
4
74.6
0
12
0.1
1
88
.7
30
1.5
479.4
770.1
1211.
19
53
. 3019.
49
22
. 7845.
12
02
0.
19
37
0.
31240.
50
05
0.
78750.
120000.
19
23
00
.
U o
O
0.0
001805
0
.00
02
22
8
0.0
00
28
19
0.0
003683
0
.00
05
01
4
0.0
007219
0.0
01008
0
.00
16
03
0.0
02548
0.0
04049
0.0
06441
0
.01
02
5
0.0
16
29
0
.02
59
0
0.0
4121
0.0
6551
0.1
041
0.1
655
0.2
63
4
0.4
185
0
.66
67
1
.05
9
1.6
79
2.6
73
4.2
44
6.7
75
10.7
1
17.1
1
27.1
6
43.0
3
68
.39
1
10
.1
17
3.0
276.4
439.5
705.9
11
10
. 1
79
0.
27
67
.
4512.
71
91
. 11020.
17
76
0.
28640.
45880.
72190.
11
00
00
. 1
76
20
0.
U
C4
0.0
00
16
41
0
.00
02
02
6
0.0
00
25
63
0
.00
03
34
9
0.0
004558
0
.00
06
56
3
0.0
00
91
61
0
.00
14
57
0.0
02316
0
.00
36
81
0.0
05856
0.0
09315
0.0
1481
0.0
2355
0
.03
74
7
0.0
59
56
0
.09
46
0
0.1
50
4
0.2
395
0
.38
04
0.6
061
0
.96
24
1
.52
6
2.4
30
3.8
59
6.1
59
9
.74
1
15
.55
24.6
9
39.1
2
62.1
7
100.1
1
57
.2
251.3
3
99
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641.8
10
09
. 1627.
2516.
4102.
6538.
10
01
0.
16140.
26040.
41710.
65630.
10
00
00
. 1
60
20
0.
U o C4
0.0
001608
0
.00
01
98
5
0.0
002512
0
.00
03
28
2
0.0
00
44
67
0.0
006432
0.0
00
89
78
0.0
01428
0
.00
22
70
0.0
03608
0
.00
57
39
0
.00
91
29
0.0
1452
0.0
2307
0
.03
67
2
0.0
58
36
0.0
9271
0
.14
74
0.2
34
7
0.3
72
8
0.5
94
0
0.9
431
1.4
96
2
.38
1
3.7
82
6
.03
6
9.5
46
1
5.2
4
24
.20
38.3
4
60.9
3
98
.11
1
54
.1
246.3
391.6
6
29
.0
98
8.7
1595.
2465.
4020.
6407.
9814.
15
82
0.
25520.
40880.
64
32
0.
98
03
0.
157000.
u o
O
0.0
001477
0
.00
01
82
3
0.0
002307
0
.00
03
01
4
0.0
00
41
03
0.0
005907
0.0
00
82
45
0.0
01312
0
.00
20
85
0.0
03313
0
.00
52
70
0
.00
83
84
0.0
13
33
0.0
2119
0
.03
37
2
0.0
5360
0
.08
51
5
0.1
35
4
0.2
15
5
0.3
424
0
.54
55
0.8
662
1
.37
4
2.1
87
3.4
73
5.5
44
8.7
67
1
4.0
0
22.2
3
35.2
1
55.9
6
90.1
1
141.5
226.2
359.6
577.6
908.
1465.
22
64
. 3
69
2.
58
84
. 9013.
14530.
23440.
37540.
59070.
90
03
0.
14
42
00
.
Dia
mete
r at
20 °
C
(mm
)
© © © © OQQOOO OOOOQO © © © © Os OO r- © © © CT m © C4 © m SO OOOOOO O O 'O M 00 rh b'^ O ^ ^ SO OO ^ 04 OS 00 © © •— ^ ^ 04 n T O T fh OOriCT-
00 O Ti 'T 04 OO 04 ^ SO SO OXO>ArJ(N OS iO) 04 ^ (N Tt b' ^ O SO 04 00 »/~> 04 © 00 SO rf 04 ^ © os © © © os O'- so ti- 04 04 m i/~) oo so — so 04 os ro ©> oo so ,^;r^«--<©osoo b- so rt rr co ro 04 04 04 04
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^ g g goo ^ ^ ^ ^ ^ ^ _ osi 040404040404 nnnmfhfh ro ro ro ro co
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22
Table
11 -
Wir
e T
able
, S
oli
d A
lum
inu
m,
EC
-O-O
hm
s p
er
Kil
og
ram
-Co
nti
nu
ed
Do 0
01
355300.
577300.
86
75
00
. 1365000.
22
76
00
0.
33
32
00
0.
55
57
00
0.
87
76
00
0.
13880000.
22
55
00
00
. 3
51
20
00
0.
55
51
00
00
.
88
91
00
00
. 1
44
00
00
00
. 2
22
10
00
00
. 360800000.
582700000.
92
49
00
00
0.
u r- 3
28
00
0.
539200.
800800.
12
60
00
0.
2101000.
3076000.
5130000.
81
01
00
0.
12
81
00
00
. 20820000.
32
42
00
00
. 51240000.
82070000.
13
30
00
00
0.
205000000.
33
31
00
00
0.
53
79
00
00
0.
853800000.
Oh
ms
per
kil
ogra
m a
t—
U o
300700.
488600.
734100.
11
55
00
0.
1926000.
28
20
00
0.
47
02
00
0.
7426000.
11740000.
19080000.
29
72
00
00
. 4
69
70
00
0.
75
24
00
00
. 121900000.
18
79
00
00
0.
30
53
00
00
0.
493100000.
782700000.
u o
<N
273300.
444200.
667300.
1050000.
1751000.
2564000.
42
75
00
0.
67
51
00
0.
10680000.
17350000.
27020000.
42
70
00
00
.
68
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Dia
mete
r at
20
°C
(m
m)
0.0
8890
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7112
0.0
6350
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5588
0.0
5080
0.0
44
70
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0.0
35
56
0.0
3150
0.0
2819
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51
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0
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r^i 't T T n mvor^ooONO Tf Tj Tf ^
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23
Table
12 —
Wir
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oli
d A
lum
inum
, E
C-0
—G
ram
s p
er
Oh
m
100
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4689
000.
37
9700
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3002
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22
9700
0.
1688
000.
11
7200
0.
ssssss! c os n OT 05 C M 0s -- (N f^iGnOr^OO 00 V"» c<N C4 —
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TOND
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9
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41
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8900
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1828
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9097
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5719
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3598
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2264
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1423
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C4 co C4 On 00 »/T no t/o <n co oo to
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d d d co d d 0.05
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d d d d © © O O O O O ON
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68
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24
Tab
le
12 —
Wir
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able
, S
oli
d A
lum
inu
m,
EC
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Gra
ms
per
Oh
m —
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per
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m a
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8 0.0
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32
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84
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80
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94
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77
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80
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°C
0.0
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0
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0.0
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0.0
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0.0
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0.0
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Dia
mete
r at
20 °
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(mm
)
0.0
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0
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0.0
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0.0
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0.0
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0.0
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0
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55
6
0.0
3150
0.0
2819
0
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0.0
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0.0
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0
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0
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0.0
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Tt Tt ^ Tf rt Tf Tf ^ Tt Tf to IG in lO IG ^ IT, m
25
Tab
le
13 —
Wir
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able
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oli
d A
lum
inum
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C-H
19
—D
ata
at
20 °
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En
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sh U
nit
s
26
Tab
le
13 —
Wir
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able
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oli
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lum
inu
m,
EC
-H 1
9—
Data
at
20 °
C —
En
gli
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nit
s —
Co
nti
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ed
27
Table
14 —
Wir
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oli
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lum
inum
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C-H
19
—O
hm
s p
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1000 f
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8
0.0
44
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0
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56
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7495
0.0
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30
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0.4
858
0
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1
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7
1.9
48
3.1
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4.9
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7.8
51
12.4
7
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31.3
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79.3
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8149.
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11960.
19160.
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0.0
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6684.
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27
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66
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Dia
mete
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20
°C
(m
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32
Table
16 —
Wir
e T
able
, S
oli
d A
lum
inum
, E
C-H
19
—O
hm
s p
er
Po
un
d —
Co
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nu
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100
°c
16
28
00
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64
50
0.
397500.
62
54
00
. 1
04
30
00
. 1
52
70
00
.
25
46
00
0.
4021000.
6359000.
10330000.
16090000.
25
43
00
00
.
40
74
00
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. 6
60
00
00
0.
10
17
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16
53
00
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0.
26
70
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00
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42
38
00
00
0.
u
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150400.
244400.
367200.
577800.
96
34
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. 1411000.
23
52
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37
15
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0.
5875000.
95
46
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14
87
00
00
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90
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60
97
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24
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25 °
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125600.
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10
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20
60
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20
°C
12
31
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. 200000.
300600.
472900.
788600.
11
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19
25
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30
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0.
4809000.
7814000.
12170000.
19230000.
30
81
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76940000.
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32
05
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00
0.
U o O
113200.
183900.
27
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72
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44
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80
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0.
28320000.
45890000.
70740000.
11
49
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00
0.
18
56
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00
0.
29
46
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00
0.
Dia
mete
r at
20
°C
(m
ils)
O O O O O O lO-^OOIOfNO
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e OsO — tNr^i't n Tf Tf ^ Tf ^
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Tab
le
17 —
Wir
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oli
d A
lum
inum
, E
C-H
19
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per
Ohm
u
ox- rb 00 </b <n r 4 O 00 VO
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r- —
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r- on oo ^ r-
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(NXO •—1 O' Q© bJ r4 vo r"Tirb
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OvOrbC4—<© OOOOOO OOOOOO OO
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34
Tab
le
17 —
Wir
e T
able
, S
oli
d A
lum
inu
m,
EC
-H 1
9 —
Pounds
per
Oh
m —
Co
nti
nu
ed
I
u
u
u
u (J ^ rt> ° C/5 coa
e
S *
a
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o o o o o o o o o p o o o o o o o
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SSS888 888888 OOOOOO o o o o o o OOOOOO o o o o o d
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or-r-or- no 'T r-i —< —■ o O <-
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o o 8 o o O 888<
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m on t <N ON ( — On < oo i
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35
Table
18 —
Wir
e T
able
, S
oli
d A
lum
inum
, E
C-H
19
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at
20 °
C —
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s E
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36
0.0
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10
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48
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2191
I 45.6
3
I 159100.
I 0.0
06286
Tab
le
I 8-W
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, S
oli
d A
lum
inum
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C-H
19
- D
ata
at
20 °
C —
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s-C
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tin
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ms
per
oh
m
0.00
3685
0.
0022
68
0.00
1509
0.0
009592
0.0
005752
0.0
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0.0
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0.0
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0.
0000
9433
0
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58
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37
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0.0
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73
0.0
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0.0
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0
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00
03
62
8
0.0
00
00
22
47
0.0
00001416
Oh
ms
per
kil
ogra
m
2714
00.
4410
00.
6626
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4300
0.
1739
000.
25
9500
0.
4244
000.
67
0300
0.
1060
0000
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00.
2683
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00.
6791
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0.0
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0.0
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0.0
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0.0
003288
Met
ers
per
o
hm
0.2
196
0.
1723
0
.14
06
0
.11
20
0.0
8677
0.
0717
1
0.05
553
0.0
44
19
0.0
3514
0.0
2757
0
.02
20
9
0.0
1757
0.01
388
0.01
091
0.0
08785
0.
0068
91
0.0
05
42
3
0.0
04
30
4
Oh
ms
per
kil
om
eter
m © © •GO — fND'rf- i/n 00 — C\ rn Tf- rn ("■- OC —<
O O O O O O -f^iVOOOh-H 0^^t(N(NO\ OO <N 00 VO VT VO --fsnfOTtin
o o o o o o m 00 © O O O n - in n r-* ON ^ 00 rrj
Are
a (s
q m
m)
0.0
06207
0.0
04869
0
.00
39
73
0
.00
31
67
0
.00
24
52
0
.00
20
27
0.0
01570
0
.00
12
49
0.
0009
931
0.00
0779
1 0.0
006243
0
.00
04
96
6
0.0
00
39
24
0.0
003083
0.0
002483
0.0
001948
0.0
001533
0
.00
01
21
7
Dia
met
er
(mm
)
0.0
8890
0
.07
87
4
0.0
71
12
0.0
6350
0
.05
58
8
0.0
5080
0.0
4470
0
.03
98
8
0.0
3556
0.0
3150
0
.02
81
9
0.02
515
0.0
2235
0.
0198
1 0.0
1778
0.0
1575
0.0
1397
0.0
1245
Gag
e (^1 Tf Tt Tt Tt T ^ Tf Tf ^ r^l rn -rt i/~» i/~) vn »/~>
Table 19 —Wire Table, Solid Aluminum, EC-H19 —Ohms per Kilometer
Gage Diameter at 20 °C (mm)
Area at 20 °C (sq mm)
Ohms per kilometer at—
0°C 20 °C 25 °C 50 °C 75 °C 100 °C
500,000 17.960 253.3 0.1026 0.1116 0.1138 0.1250 0.1363 0.1475 450,000 17.040 228.0 0.1140 0.1240 0.1265 0.1389 0.1514 0.1639 400,000 16.070 202.7 0.1282 0.1394 0.1422 0.1563 0.1703 0.1844 350,000 15.030 177.3 0.1465 0.1594 0.1626 0.1786 0.1947 0.2108 300,000 13.910 152.0 0.1710 0.1859 0.1897 0.2084 0.2272 0.2459 250,000 12.700 126.7 0.2051 0.2231 0.2276 0.2501 0.2726 0.2951
0000 11.680 107.2 0.2424 0.2636 0.2689 0.2955 0.3220 0.3486 000 10.4000 85.01 0.3057 0.3325 0.3392 0.3727 0.4062 0.4397
00 9.2660 67.43 0.3854 0.4191 0.4276 0.4698 0.5120 0.5543 0 8.2520 53.49 0.4858 0.5284 0.5391 0.5923 0.6455 0.6988 1 7.3480 42.41 0.6127 0.6665 0.6799 0.7470 0.8142 0.8813 2 6.5430 33.62 0.7728 0.8406 0.8575 0.9422 1.027 1.112
3 5.8270 26.67 0.9745 1.060 1.081 1.188 1.295 1.402 4 5.1890 21.15 1.229 1.336 1.363 1.498 1.633 1.767 5 4.6200 16.77 1.550 1.686 1.720 1.890 2.059 2.229 6 4.1150 13.30 1.954 2.125 2.168 2.382 2.597 2.811 7 3.6650 10.55 2.463 2.679 2.733 3.003 3.273 3.542 8 3.2640 8.367 3.106 3.378 3.446 3.786 4.127 4.467
9 2.9060 6.631 3.919 4.262 4.348 4.777 5.207 5.636 10 2.5880 5.261 4.939 5.372 5.480 6.021 6.563 7.104 11 2.3040 4.168 6.234 6.780 6.917 7.600 8.283 8.966 12 2.0520 3.308 7.855 8.544 8.716 9.577 10.44 11.30 13 1.8290 2.627 9.893 10.76 10.98 12.06 13.14 14.23 14 1.6280 2.082 12.48 13.58 13.85 15.22 16.58 17.95
15 1.4500 1.652 15.73 17.11 17.45 19.18 20.90 22.62 16 1.2900 1.308 19.87 21.61 22.05 24.23 26.41 28.58 17 1.1510 1.040 24.99 27.18 27.73 30.47 33.21 35.95 18 1.0240 0.8229 31.58 34.35 35.04 38.50 41.96 45.42 19 0.9119 0.6531 39.79 43.28 44.15 48.51 52.87 57.23 20 0.8128 0.5189 50.08 54.47 55.57 61.06 66.55 72.03
21 0.7239 0.4116 63.14 68.67 70.06 76.98 83.89 90.81 22 0.6426 0.3243 80.12 87.14 88.90 97.68 106.5 115.2 23 0.5740 0.2588 100.4 109.2 111.4 122.4 133.4 144.4 24 0.5105 0.2047 126.9 138.1 140.8 154.8 168.7 182.6 25 0.4547 0.1624 160.1 174.1 177.6 195.1 212.7 230.2 26 0.4039 0.1281 202.9 220.6 225.1 247.3 269.5 291.8
27 0.3607 0.1022 254.3 276.6 282.2 310.1 337.9 365.8
28 0.3200 0.08045 323.0 351.3 358.4 393.8 429.2 464.6 29 0.2870 0.06470 401.6 436.8 445.6 489.6 533.7 577.7
30 0.2540 0.05067 512.8 557.8 569.0 625.2 681.4 737.6
31 0.2261 0.04014 647.4 704.2 718.4 789.3 860.3 931.2
32 0.2032 0.03243 801.3 871.6 889.1 976.9 1065. 1153.
33 0.1803 0.02554 1017. 1107. 1129. 1240. 1352. 1463.
34 0.1600 0.02011 1292. 1405. 1434. 1575. 1717. 1858.
35 0.1422 0.01589 1635. 1779. 1815. 1994. 2173. 2352. 36 0.1270 0.01267 2051. 2231. 2276. 2501. 2726. 2951.
37 0.1143 0.01026 2533. 2755. 2810. 3088. 3365. 3643.
38 0.1016 0.008107 3205. 3486. 3556. 3908. 4259. 4610.
39 0.08890 0.006207 4186. 4553. 4645. 5104. 5563. 6021.
40 0.07874 0.004869 5336. 5804. 5921. 6506. 7091. 7676.
41 0.07112 0.003973 6541. 7115. 7258. 7975. 8692. 9409.
42 0.06350 0.003167 8205. 8925. 9105. 10000. 10900. 11800.
43 0.05588 0.002452 10600. 11520. 11760. 12920. 14080. 15240.
44 0.05080 0.002027 12821. 13940. 14230. 15630. 17040. 18440.
45 0.04470 0.001570 16560. 18010. 18370. 20180. 22000. 23810.
46 0.03988 0.001249 20810. 22630. 23090. 25370. 27650. 29930.
47 0.03556 0.0009931 26170. 28460. 29030. 31900. 34770. 37630.
48 0.03150 0.0007791 33350. 36280. 37010. 40660. 44320. 47970.
49 0.02819 0.0006243 41620. 45270. 46180. 50750. 55310. 59870.
50 0.02515 0.0004966 52320. 56910. 58060. 63790. 69530. 75260.
51 0.02235 0.0003924 66220. 72030. 73480. 80740. 87990. 95250.
52 0.01981 0.0003083 84290. 91680. 93530. 102800. 112000. 121200.
53 0.01778 0.0002483 104700. 113800. 116100. 127600. 139100. 150500.
54 0.01575 0.0001948 133400. 145100. 148000. 162700. 177300. 191900.
55 0.01397 0.0001533 169500. 184400. 188100. 206700. 225300. 243800.
56 0.01245 0.0001217 213600. 232300. 237000. 260400. 283800. 307200.
38
Tab
le 20
—W
ire
Table
, S
oli
d A
lum
inu
m.
EC
-H 1
9— M
ete
rs p
er
Oh
m
I
u
u
ooo,t'oros r-' o fs Tj- so oo h-tEOm so VO mN rf Tf cn
0\ Tt ^ r-in ON so b" O m c*s Os oo r9 oo rf ^ oo MO'-'H-
rf oo sq oo c<s os
f^i'OOO'Orir^ -HSO ’t'OOOfN b'lri Tjr^KNtN
^ r- r>i r- Tt <n O sq Os "rt co Tf
— OO SO mi rt cd
Tj-csi^sOTj-r^ ri in r, ^ r~ ^0 h^hfhOX
■cf — — os mi O' cn 00 ms 00 tj- so XmtNrnb'rH so ^'t m (N (N
O O O © O O
r^i -H so tN cn o r- m o m'OOO r- so in in
innn OsO<n — ^ OS m 09 ^
O' x m C9
Ti (N O'
c^s ms SO sO co
ri ri mi iri mi ri r- — oo oo o
so rn m C9
— oo o ^ T b; OO O n
ririoin^d os«/~» r9 os r- so
E-' d x in
r9 Os Os c9 o — Os m rf Os r^-
OS O ^ X C9 OS m m b' sc so m Os m x T ^ Os
00 «ns 09 OS 09 00 oso9 0sor^^ co 00 so so Os co ^•0^^09 09
- Cbi r"' mi -cf cd c9 oi — —< — o ooooocd
os oo oo os O' Os O' O' O' O' OS — CO mi O' OS
O' so ms Tt co
^ ro 00 00 os — 00 00 09 00 CO SO co SO — SO co O m fN 09 -H —
r-; so 09 b^ © —«
—< T"’ Os Os cd ^d -r SO 09 ~ m so X so »/"n Tf co 09
Os f9 »n m OS Tj- SO SO 09 Tf OS 09 — Tfr — o
ms Os 09 O' O' ^ 09 CO T3- Os SO 09 09 n o n 09 o
m X so On OS O' SO Tf ’—O co ms o m o os 09 in Xsomimmo9
09 © 00 SO ms rf CO 09 09 —1 — —< OOOOOO
r- oo o — 09 co X O oi in b- On O- Os O ^ 09 CO oc r- so t/o tj-
Os 00 OS ION — SO *—1 tJ- co «ns r- sO
OS CO 00 ^ ^ CO 09 09 — — ^
00 ms ms 09 os 09
Tf CO —* —« mi © 09 co 00 SO so os Os t • ms Tb co 09
o ms so ms o CO co © mi SO © r- ud so oo 09 oo ION rf CO 09 09 f—
SO O —h co b-inb'Occ.rr 09 09 OS —; SO Tt
rf ^ oo mi Tt CO 09 09 -h^-
On in r- CO On 09 int^rHOsm- 00 OS ms CO m> 00 00 SO ms Tt CO 09
o © © © © o
Sr- 09 ION 00 09 so r- r- o- oo
Os © — 09 co Tt oo oo so ms Tf
00 SO 09 Q O os © 00 OS © os r- © co 00 ms — COCO09 - -H
T cn 09 >n co o
CO 00 CO © CO so tj- rt os o- r- os Os <n Tf co (N
■cf SO O' O' 09 CO cqoo^r-osr-
O' co t* 09 SO OO */~l Tf Tf CO •on -ct — (N o »n
tt OS 0^ mi rd
ms sO Os co © O'- — ’TXON09't so 00 OJ O "t - CO O 4 09 -d —i —i
O — sO ^ SO C ^n o in co (
dddddo
ON "T - <n Os in T O O 09 Tf o O' O' 00 00 00 X os oo O' so >ns Tt
so — mi 00 09 TT 09 0- os «n co os -H 09 n o NO 09 t COM09^H -
OS 09 O O O
so co mi ^ sd 09
o9in^cn^ —
miridoi-d ms © sO 09 © 00 09 09 i—i —
OS 00 00 o 'T OO m, O Tf co 00 Tt OS 00 04 OS
09 SO O O mN 00 co OS Os ms rfr Tf Os O Tf os ms 09
O Os ion mi Os O CO CO 1-H O' Tf 09 xr--xos- O' O' sO TT co co
mN09Osr^sO-^ co co 09 *—i •—1 ^ OOOOOO
u$)
0,0
O co «n so o SO 09 09 00 CO 09 rf SO 00 O ^ Os - -H - (9 09 09
088008
onsoh^r inmix^-090 Tf CO rt os b- O co Tf in so x —* OOOOQ— OOOOOO
O' Os O' 09 SO 09 00 o 00 o 09 co t 09 0^ in~i ■cf
’—I b) 09 CO ■'t OOOOOO
Os -—1 ms r-cor-xxr- inooo — or- inhx-'^p. 000———
OS OS OO SO mN O co 09 mN os sO co O9xm^s0r- 09O9CO rfinb'
x — os r- os 00 os rf 09 o 00 X 1—1 rr 00 09 00
OOOOOO OOOOOO OOOOOO OOOOOO OOOOOO o — •
— OS 00 —* 00 <^4 0S — 0—' — so mi cn r9
cd rd mi r^- Os »—■
V Cl u
cn « u p V 0 2 |S o| <3 3
00 cn OS OS Tf
rd sd r-’ os o r9 oo — rrr- — ^r
no in rtcn
os Os C9 Tt Tf o 00 r9 00 rt —• os r9 r9 -h ^
00 r9 -cf r9 r9 O — rn Os in so
C9 r- mi mi 00 09 r- ms Tf cn 09 r9
09 O 00 09 (N r- T O T9 Os 09 09 OS *—1 SO
r-’ Tt —i 00 r-‘ mi
NOn^rtinm so cn ^ 09 SO O T rn 00 rt r- rf ^d cd 09 —i ^
r- so cn 00 cn 09 SO Os C<N 00 SO — b' Os >n c*-i rj — XsOinTfcn
so 09 tj- os O mN vo> sOt^Tb-Xb'
— r- ccn o 00 09 09 ^ —1 ^ O
TT so mi cr tT _ o cn os 09 os
sO mi tj- cn 09 09 OOOOOO
-OOOOO OOOOOO OOOOOO
« u ^ OOOOOO so ^ r- cn — o OSOOOONb
0000 OOnONXcci MONOrnift SO Tfr C9 C9 cn mi
^ E .2 V-
UN W W' 'w' l '-j ^ ' I I sd mi rd ri —ocsoor-sd
OOOOOO J^On Ornimi Tf r9 oc r9 — so so 00 — so — so C9
OOOOOO so 00 r9 o\ 00 O 00 O m> r9 r9 Os mN cn O 00 so
Q O o o OS 00 O o — — r9 m,osmir9 — — rT(Nr-OOSX
in mi Tt -t cc cc 09 09 09 09—!—. — .
ONSOOmib'Os cn 09 T o T CC| O ) Tt pv r- in O b' SO rn, m, cr cr
dddddo
r- O O O — 09 C0QC9OCCNS0 OOb-'t NOcci OOfSbt- sor9oomio90 00 so ^ r9 — o cn cc', 09 n-j 09 nJ — — ^ — —
oo<do>c>o dddddo
o
cn tT" mi so 00 os O — r9 corf
00000 O mi O m( O in T T cc o.
39
Tab
le 20-W
ire T
able
, S
oli
d A
lum
inu
m,
EC
-H 1
9-
Mete
rs p
er
Ohm
- C
onti
nued
10
0 °
c
0.1
66
1
0.1
303
0.1
063
0.0
8473
0
.06
56
2
0.0
54
23
0.0
41
99
0
.03
34
2
0.0
26
57
0.0
2085
0
.01
67
0
0.0
13
29
0.0
10
50
0
.00
82
48
0.0
06643
0.0
05211
0.0
04101
0
.00
32
55
u
O'
0.1
798
0
.14
10
0.1
151
0
.09
17
2
0.0
71
03
0.0
5870
0.0
45
46
0
.03
61
7
0.0
2876
0.0
2256
0
.01
80
8
0.0
14
38
0.0
11
36
0
.00
89
28
0.0
07191
0
.00
56
41
0
.00
44
39
0
.00
35
23
2
E
u o
0.1
95
9
0.1
53
7
0.1
25
4
0.0
99
96
0.0
7741
0
.06
39
8
0.0
49
54
0
.03
94
2
0.0
31
35
0.0
2459
0.0
1971
0
.01
56
8
0.0
1239
0.0
09731
0.0
07837
0
.00
61
48
0
.00
48
38
0.0
03840
.2 o u a c/)
<L> a> s U
<N
0.2
15
3
0.1
68
9
0.1
37
8
0.1
098
0.0
8506
0
.07
02
9
0.0
54
44
0
.04
33
2
0.0
34
44
0
.02
70
2
0.0
21
65
0
.01
72
2
0.0
1361
0.0
1069
0.0
08611
0
.00
67
55
0.0
05316
0.0
04219
u o 04
0.2
196
0
.17
23
0.1
406
0.1
120
0
.08
67
7
0.0
7171
0.0
5553
0
.04
41
9
0.0
35
14
0
.02
75
7
0.0
22
09
0
.01
75
7
0.0
13
88
0
.01
09
1
0.0
08
78
5
0.0
06891
0.0
05423
0.0
04304
U o
0.2
38
9
0.1
874
0
.15
29
0
.12
19
0.0
9438
0.0
7800
0.0
60
40
0.0
4806
0.0
3822
0.0
2998
0
.02
40
3
0.0
1911
0.0
15
10
0
.01
18
6
0.0
09555
0.0
07496
0
.00
58
99
0
.00
46
82
Met
ers
per
g
ram
at
20 °
C
O oo m \q O) ~ oo on Os «A) r<i \6 © Csi
— looo
C;(N<0 00'Oa no r 4 Tr rj On C On ^T
fStNfnTtinh 942.8
1200.
14
90
. 1899.
2414.
3041.
Kil
og
ram
s per
kil
om
eter
at
20 °
C
0.0
16
78
0
.01
31
6
0.0
1074
0.0
08560
0.0
06629
0.0
05479
0.0
04243
0.0
03376
0
.00
26
84
0.0
02106
0
.00
16
88
0.0
01342
0.0
01
06
1
0.0
008333
0
.00
06
71
1
0.0
005265
0.0
004143
0
.00
03
28
8
Dia
met
er
at 2
0°C
(m
m)
0.0
8890
0
.07
87
4
0.0
71
12
0.0
6350
0
.05
58
8
0.0
5080
0.0
4470
0
.03
98
8
0.0
35
56
0.0
3150
0.0
2819
0.0
2515
0.0
22
35
0.0
1981
0
.01
77
8
0.0
15
75
0
.01
39
7
0.0
12
45
Gag
e On O m Ti¬ en ^ ^ ^ tj* ^ Tf T* Tt Tt *0
—« r4 m tt no •/") V)
Table
2 1
— W
ire T
able
, S
oli
d A
lum
inu
m,
EC
-H 1
9 —
Oh
ms
per
Kil
og
ram
Oh
ms
per
kil
ogra
m a
t—
100
°c
0.0
00
21
54
0.0
002660
0
.00
03
36
5
0.0
004397
0
.00
05
98
5
0.0
00
86
17
0.0
01
20
3
0.0
01913
0.0
03041
0.0
04833
0
.00
76
88
0
.01
22
3
0.0
1945
0
.03
09
1
0.0
4919
0.0
7819
0.1
242
0
.19
75
0.3
144
0
.49
95
0.7
958
1.2
64
2
.00
4
3.1
90
5.0
66
8
.08
7
12
.79
2
0.4
2
32
.42
51.3
6
81
.63
131.4
2
06
.4
33
0.0
5
24
.6
84
2.6
13
25
. 2
13
7.
33
03
. 5
38
6.
85
84
. 13150.
21
19
0.
34190.
54
76
0.
86
17
0.
13
13
00
. 2
10
40
0.
u o
r-
0.0
001990
0.0
002457
0.0
003109
0.0
004062
0.0
005529
0.0
007960
0.0
01111
0
.00
17
68
0
.00
28
09
0.0
04465
0
.00
71
03
0
.01
13
0
0.0
17
97
0
.02
85
6
0.0
45
44
0
.07
22
4
0.1
14
7
0.1
825
0.2
905
0
.46
14
0
.73
52
1
.16
7
1.8
51
2.9
47
4.6
80
7
.47
1
11.8
1
18
.86
29.9
5
47.4
5
75
.41
1
21
.4
190.7
3
04
.8
484.6
778.4
12
24
. 1
97
4.
3051.
49
75
. 7
93
0.
12
15
0.
19
58
0.
31
58
0.
50
59
0.
79
60
0.
121300.
194300.
U
o •/“)
0.0
00
18
26
0.0
002255
0
.00
02
85
2
0.0
003727
0.0
005073
0.0
007304
0.0
01020
0
.00
16
22
0
.00
25
78
0
.00
40
97
0
.00
65
17
0.0
1037
0.0
16
48
0.0
2620
0.0
4170
0
.06
62
8
0.1
053
0
.16
74
0.2
66
5
0.4
234
0.6
745
1.0
71
1
.69
9
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Tab
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Table 2
3 —
Str
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lum
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, A
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EC
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Data
at
20 °
C —
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Outs
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13.
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No.
of
str
ands
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Os Os Os Os Os Os SO SO SO SO SO SO 12
7
127 r- r- C"
CM CM CM 127
91
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OS OS Os Os OS OS SO 3 3 61
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2309
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. cm © oo so os m Os Tf cm O so »/"> >/1 »/“) 14
12.
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8.8
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Cla
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CM CM — — i— —« 128.
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11
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No.
of
str
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r** os os t- — SO SO CM
r-r-r-r-r-r- (NN NC4 (N (N 91
91
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61
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SO SO SO SO SO SO P) r- r- m ro 37
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oo oo cm rn os ICiQS -- (N (N — os os oo r- 16
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( 1/3 CM Os b' ’-t ^ o o
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7 963.9
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8.5
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Dia
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r (m
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qr^oor^fs sd rn m r- so so 14
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8
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5.1 cm o — go
© 00 GO — OS CO CM CM CM «—i
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ands
r- r- —* ^ — (NtN Os Os OS Os OS SO SO SO VO VO VO \Q \0 \C SO so SO so SO
c~" r"- r- r- co m m m m Os Os OS Os
Ou
tsid
e
dia
mete
r (m
ils)
1525
.
1453
. 14
17.
1379
.
1339
.
1300
.
1258
. 12
16. O — CM SO uincMOsc-
—• — —■ o o
_ 00 Cq GO CM sd sd cd CM 00 CM os r- SO CM O Os Os Os Os 9
17.7
89
1.1
855.
811.
0 792.0
769.
5
723
5
Cla
ss A
j
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mete
r (m
ils)
169.
4
161.
4 15
7.4
153.
2
148.
8
144.
4
139.
8 13
5.1 ^tscou
u d d sd d SO sO SO go GO
sq tj- »-* «/■* sq sd CM Os r- CM
131.
1 12
7.3
171.
1
162.
2 15
8.4
153.
9
144
7
No.
of
str
an
ds
3 so so so SO SO SO SO r^r-r-r^r- r^r^c^r-r- co m m m m
r- r- os os os mm — — — OS Os
Pounds p
er
10
00 f
eet
© © CM sd 00 CM riiciUOsom 00 00 sO CO — ri m (N M fN M 18
76.
1783
. 16
91.
1643
. 15
96.
1501
. CM Os 00 Tl* m 00 Os — O ^ — sO rr Tt Tt rrj f<S CN
o d OS CMOsr-CM — rr
oo Os cq uo cm os oo go uo o ro SO ro OS ^ CM O OS os 00 00 00
o sd cm so © Go,'3-©r'-Go — so so so
O On CM OO CM GO r-' cm cm sd Os r-’ OssOCM — sOrt tci to to to Tf Tt 4
22
.4
375.7
37
3.5
328.4
316.0
281.8
$> U Q. <D /
is 0.00
4361
0
.00
49
87
0.0
05817
0.0
06288
0
.00
69
18
0
.00
76
87
0.0
08565
0.
0090
11
0.0
09
50
2
0.0
09779
0.0
1007
0.
0107
1
0.0
1077
0
.01
13
3
0.01
141
0.0
1196
0
.01
22
3
0.0
1267
0.0
1317
0.0
1346
0
.01
36
9
0.0
1427
0
.01
43
6
0.0
1537
0.0
15
57
0.0
1657
0.0
1712
0.0
1794
0.
0190
1 0.0
1958
0.0
21
40
0.0
2153
0
.02
28
2
0.02
391
0.0
2447
0.
0263
1
0.0
2692
0
.02
85
5
0.0
3077
0
.03
10
9
0.0
34
24
0.
0359
1
0.0
38
04
0
.04
27
7
0.0
43
03
0
.04
89
3
0.0
50
86
0
.05
70
2
o —
' N
om
inal
siz
e,
cir
cu
lar
mil
s o
r A
WG
4,0
00,0
00
3
,50
0,0
00
3
,00
0,0
00
2,7
50,0
00
2
,50
0,0
00
2
,25
0,0
00
2,0
00
,00
0
1,9
00,0
00
1,8
00,0
00
1,7
50,0
00
1,7
00,0
00
1,6
00,0
00
1,5
90
,00
0
1.5
10
.50
0
1,5
00
,00
0
1,4
31
,00
0
1,4
00
,00
0
1.3
51.5
00
1,3
00,0
00
1,2
72,0
00
1,2
50,0
00
1,2
00,0
00
1,1
92,5
00
1,1
13,0
00
1,1
00
,00
0
1,0
33,5
00
1,0
00,0
00
9
54
,00
0
900,0
00
874,5
00
O sc-s O «nO O OOs^-OTi oo r- r- r"~ so
so'osdo'oV m o go go o SO SO GO GO GO
888888 O. © «/q © © o' ©* o' so* o* inoasvsmo rt tj- m co m co
45
Table 2
3-S
tran
ded A
lum
inu
m W
ire T
ab
le,
All
oy
, E
C-O
-Data
at
20
°C
-En
gli
sh U
nit
s-C
on
tin
ued
Outs
ide
dia
mete
r (m
ils)
O fS ^ O X
vO Ov — O ^ •Cl lO -r't
nvsO'ci'ciO
ri »ci r^i Tf oo sd OS SO rn O 00
r^i fN M fN M
qqqO‘0'0
se e e Ei ce vo’t r^i — asr^
oo »E)
Cla
ss C
Dia
mete
r (m
ils)
O vOrnO ^
\c vO'O <^)
vq — co o\ e C4
e os Ei so e ici Tf ^ rr,
—< *0 E4 Tj- iq e ce Os sd ce 06 fnnriN-- 1
1.7
No.
of
str
an
ds
— r- mm
e as as as as as Os Os as Os Os Os as
Ou
tsid
e
dia
mete
r (m
ils)
lo^doori r- <n — r-
o n -- q Tt q
(N(NO^'Ofri nON^Of^OX
r) (N (N M —
qxqq<0\0
CE >/") OS */")»—< E4 so ^ r4 — os e
so so cq
e ue so
Cla
ss B
Dia
mete
r (m
ils)
r4 »o © rq ri <ci Tf r^i rf oc o os oo r-
Tt Tt r- C4 00 <N so e so e oo ^ so as oo e so so
uq so C4 uq t/y E4 TT 00 CE 00 O Tt
E4 04 -q as iri r4
C/) °-o
e- os os os os as e e e e e e e e e e e e e e
O g
^ cn
Ou
tsid
e
dia
mete
r (m
ils)
^ ^ ^ t ^ ^ rir^-^^rnod os cm sc *-< o
IT) lO Tt Tt ff| 327.9
292.2
231.6
18
3.6
Cla
ss A
Dia
mete
r (m
ils)
v-\ e- as oo as oo
oo ^ cn rf K ri «-• ^ E- rn m C4
10
9.3
9
7.4
77.2
61
.2
u. </5 as os r- e e e e
6 g
c/5
of
Ou
tsid
e
dia
mete
r (m
ils)
as o Tr r^ Tr iri -rVi oc 00 SO C4 VO —• so »/"i v-) u~) Tt Tf m 3
27.9
292.2
Cla
ss A
j
Dia
mete
r (m
ils)
rq © Os 00 Os 00
u-i as cn rf Ei OS x b' T| f<s (N
10
9.3
97.4
No.
of
str
an
ds
e e r- e~ e e- e e
Pounds p
er
1000 f
eet as
^hhiooo d oo T-’ IC) a) i/smasi^nas c4 n <
OTO)SOOth id (<I r^i ^ VO oo r4 os as tt e so tj- co ce r4
0<^)X n ri vo o —1 o »/y iq E4 e ^ oo as in Ei as sd m 2
.422
1
.51
8
0.9
62
1
Oh
ms
per
10
00 f
eet
0.0
6411
0
.06
84
6
0.0
8086
0.1
020
0.1
286
0.1
622
e oo m rn so as T E IC| o vO M Oin<N — fNCin tt q\0 © © © © © ©
ce r^i O O Os so nn-HinriE oo orq q q q © —I ^ —i E4 rf 6
.63
4
10.5
8
16.7
0
Nom
inal
siz
e,
cir
cu
lar
mil
s o
r A
WG
o o o o o o o o o o o 00 o o o
VO «/S c4 C4
^ E4 ce ^ v-y so Exoson^t SO OO O —< —• E4
46
Table 24
—S
tranded A
lum
inu
m W
ire T
able
, A
llo
y,
EC
-0—
Data
at
20°C
— M
etr
ic U
nit
s
Ou
tsid
e
dia
mete
r (m
m)
58
.64
5
4.8
4
50
.78
46.3
3 »DOn(NOn(NU
Tf r,fDh-q r-IooNoooor^’ ’jTf rDfDlDfD 3
5.8
9
34
.67
33
.42
32.7
6
32.1
0
30
.74
LL
'LZ
8Z
’6Z
26.2
1
25.3
7
24
.25
23.6
1
22.6
9
21.7
1
20.6
9
19
.64
1
8.5
2
17
.31
16
.02
Cla
ss C
Dia
mete
r (m
m)
Ov cd Os ON © CN On p cd cd C4 cd
NO On <N on UVOVDIDID-T riririririri 2
.76
r- p
2.5
7
2.3
6
2.6
6
2.5
2
2.3
8
2.3
1
2.2
3
2.1
5
2.0
6
1.9
7
2.3
0
2.1
8
2.0
6
1.9
2
1.7
8
No. o
f str
ands
—< C- t""- On r- -H r-H NO C4 C4 C4
ON ON ON ON ON ON NO NO NO NO NO NO 1
27
12
7
12
7 r- r-
cni cn
12
7
91
91
On ON ON Ov Ov ON NO NO 3 61
61
Ou
tsid
e
dia
mete
r (m
m)
58
.64
5
4.8
3
50
.75
46
.33
T OO fDU O T Tt rD rD fN O —I © ON oo oo Tj- Tt rD CD CD CD 3
5.8
8
34
.65
33
.39
32
.75
3
2.0
8
30.7
1 L
L'L
Z
9Z'6Z
26
.17
25
.35
24.4
8
23.5
9
22
.68
21.7
2
20.6
6
19.6
1
18
.49
17.3
0
16
.00
Cla
ss B
Dia
mete
r (m
m)
VNVOX NO ^ vo cd m> rn r<) cd
On ^ cdoo Tf in •—i ^ O On On OO CD CD CD CN CN r4 3
.26
3.1
5
3.0
4
2.9
8
2.9
2
2.7
9
3.2
5
3.0
9
2.9
1
2.8
2
2.7
2
2.6
2
2.5
2
2.4
1
2.9
5
2.8
0
2.6
4
2.4
7
2.2
9
No. o
f str
ands
r- on on U' NO VO C4
r- r- r- r- r- (N n n r) rt d Ov Ov ON ON ON ON 61
61
NO NO NO NO NO ^ r- NO CD
r- r- CD CD 3
7
37
Ou
tsid
e
dia
mete
r (m
m)
-TIVOON oorqpcDON Tf © 00 VO CD ON IO Tf Tf tT 4
1.4
1
36.9
4
35.9
8
35.0
2
34.0
2
33
.01
31.9
6
30.8
8 VO VO o NO
r-q <n p ip cd ONOvoor-'t''' fN(NM(N(N
^ VO NO 00 »—< CD I • Tf NO mi Tf Tf fNMMM 2
3.3
1
22.6
3
21.8
0
20.6
6
20.1
8
OO CD O VO cd C4 Ov On oo no mi
Cla
ss A
Dia
mete
r (m
m)
<N © *—' *—< Ov (NO\ TffSO) rfr CD Tf Tf CD 3
.76
3.3
6
4.0
0
3.8
9
3.7
8
3.6
7
3.5
5
3.4
3 -Hinxovd-
q M r- p C CD rD CD CD CD
ONvnrN Ov oo rp rp <N <N <N <N
CD CD — CD CN *—« CD CD CD 2
.95
2
.88
00 mi 00 ON p Tfr CD rH CD CD CD CD
No.
of
str
an
ds
r- ^ CN C4 On ON On Ov ON NO NO 3 3 3 NO \Q \Q NO NO NO NO NO NO NO
r- r- r- CD CD CD
r- CD CD
ON Ov ON Ov
<
Ou
tsid
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dia
mete
r (m
m)
38.7
2
36.9
0
35.9
8
35
.02
34
.02
33
.01
31.9
6
30
.88
--h CD IT, T CD rp fN «p tp cd on on oo K (N fN (N (N (N
U (NCDinX O CD rq p VO NO mi Tf rf cd (N (N (N (N (N 2
3.3
1
22.6
3
21.7
3
20.6
0
20.1
2
19
.55
00 CD 00
< C/5 C/5 cd
U
Dia
mete
r (m
m)
4.3
0
4.1
0
4.0
0
3.8
9
3.7
8
3.6
7
3.5
5
3.4
3 Tf oo 00 NO o uqoqq Tf Tf Tf CD CD
(NDCDONU rq P mi p CD CD CD CD CD CD
cd cd my CD CN rD CD CD Tf 4
.12
4.0
2
3.9
1
3.6
8
No. o
f str
an
ds
NO NO NO NO 3 3 NO NO CD CD CD CD CD r- r- r- r- r- CD CD CD CD CD
r- r- on CD CD *—>
ON ON ON ON
«£ E 2 ^
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Q mi dT 0C vd D4 oxub-nu t"- Ov rM oo m> i—i »o,t d1 fbfbrn
c4 ^ mi mi rr ^ n — Tf b' r<-| U NO n ^ rD M Dl CJ (N fS (N DJ 2
22
0.
21
11
. 2
09
6.
20
00
. 1955.
1887. >n no vn vo in
b'Nim oo r- r- no no vo
•o m r CD 00 »—< rD T ON mn (N n T rT| rD (N D
1117.
mi.
1048.
1000.
977.3
908.9
qpq oouu oo cd r- x x r- 7
69.1
6
98
.3
666.0
628.7
559.1
oo oo (N q mi oo o Ov <nxur- rniTf TT
* 6 Cu
Oh
ms
per
kil
om
ete
r
0.0
1431
0
.01
63
6
0.0
1909
0
.02
06
3
0.0
2270
0.0
2522
0.0
28
10
0.0
2956
0
.03
11
7
0.0
3208
0
.03
30
3
0.0
35
13
0.0
3534
0
.03
71
6
0.0
37
43
0
.03
92
3
0.0
401
1
0.0
4158
0.0
43
22
0
.04
41
5
0.0
44
93
0
.04
68
3
0.0
4711
0
.05
04
4
0.0
5109
0.0
5436
0.0
5616
0
.05
88
5
0.0
62
37
0
.06
42
5
0.0
70
22
0.0
7062
0
.07
48
5
0.0
7844
0
.08
02
8
0.0
86
32
0.0
8831
0.0
9366
0.1
010
O CD 00 m m r- O ^
o o o
00 CD DT O r t -cr
o o
umiX“ ^ o NO E- Tf NO NO 00
dodo
Are
a
(sq m
m)
00 CD © CD VO ON (NUfNONVOfD OMClfDN^ C4 —
V-) 00 Tf w* rnririu’-O ^ NO —1 00 NO «-■ O ON ON 00 OO 00
D4 OC C4 rt mi mi © mi O NO NO r4 xuuu
Tf
ON Tf O 00 r- no 6
58.5
6
44
.5
63
3.4
6
07
.7
60
4.1
564.2
556.9
523.5
506.7
4
83
.6
456.3
4
42
.9 M Ov N X mi VO
n ri o ri't ov O O X NO «n D4
Df CD CD CD CD
D-l 00 00 O CD NO cd cd *—< on cd •—i nOXUmiTt O CD (N (N (N (N
OOONOCDNO — 00 (N —i r-‘ O Dt U O O M'* rn, (N(N(N-h-i-
'Jom
inal
size,
cir
cula
r m
ils
or
AW
G O O O O O © o o o o o o °, © °, © © o' o' o' o' o' o' © © © m> © m> 0^01 mi <N
o o o o o o o © o o © © qqqqqo o' o' o' o' o' o' © © © my © © o on oo r- no
o o o o o o o o o o o o 0_ mq cp © p vp
o' o' o' —o' —' ON-OrDOn <n <n n -d1 ■d’ r^)
op o O o p o o o o o o o © ©_ O, VO ©
o' c-f o' o' rn OCTiOON- rDM (N C4 — -h
O O O O O O o o o o o o 0„ *0 © O © m>
OrDOtOt OrDO^OU
O O ON ON 00
OO o OO o o o o o o o ©, © © vp ©^ ©^
o' rnT o' mi' o' o' O on «n *—■ o *n oo r- r- r- r- no
o o o o o o o o o o o o O p *p o p_ o no' o' no' o' o' r-' cd O m> my o no vo n in n T
o o o o o o o o o o o o p p «p p p o
o' o' U'' o'no' o' •n O On mi cd O Tf Tf CD CD CD CD
Tfr CD CD fS <N «N ^ ^ ^ —1 — ^ — ^ ^ ~ ~ —
47
Table 24
—S
tranded A
lum
inu
m W
ire T
ab
le,
All
oy,
EC
-0—
Data
at
20 °
C —
Metr
ic U
nit
s —
Co
nti
nu
ed
‘I « £
cn ''T t"' T- Os SO Tf Os so ^
Tt cn ^ © OS
r^soOsOsO^ SDOX^OsfN
ici so Ov rt c
oo K sd «/"i iri Tf
tuunoh O TT C4 C" so so
r~" ro Os ro oo
^(d(d(NfN« 1.4
86
0^5
Cla
ss C
Dia
mete
r (m
m)
m <N ^ C4 SO vo os p cn
— O^OssO^ (N 1C) r<i -- O Os
^lOt^OSUU oo u so vs ^ o
© © © © © ©
OH
)
No.
of
str
ands
—■ r- r- u- P Os Os Os Os Os Os Os Os Os Os Os OS
Ou
tsid
e
dia
mete
r (m
m)
<N (N O VO SO Tf ON vo Tf
rf cd »—< O OS
r<s M h- ri r^i m(N OX Tf SO Tt ^ VO 00 (N SO
oo sd rf
COCOC4-^TfTt V)OOsrsM^
0- 04 os rn oo •d o o (N ri r-i 1
.463
1
.15
8
0.9
22
Cla
ss B
Dia
mete
r (m
m)
Os 00 Os m Os O'O^^oo
«n <n ci <n ~
OsUOsO^vs so ^ (N Os U vs
«-« c4 c4 »-« —I —3
00 ro o 00 ^ rn 04 —* Os r- so
-^-odo
OS OS — Tf m rn
odd
i*. c/5 °n
U Os os Cb Os Os r"- r- r"~ c- c- r- r- r- r- r- r**
O 2
Z ~
Ou
tsid
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dia
mete
r (m
m)
r-
O s/s <N oo ^ cn
8.3
29
7.4
22
5.8
83
4.6
63
Cla
ss A
Dia
mete
r (m
m)
--(Nr^iort OOS'l'OS'Or- ro ci rf r<s ri f<i 2
.78
2.4
7
1.9
6
1.5
5
No.
of
str
an
ds
osasuuur' r- r- c- r-
<
Ou
tsid
e
dia
mete
r (m
m)
r*** 00 O ^ O - IC| X 't fN X ^ r*S
tt ■t — o 8.3
29
7.4
22
< C/5 C/5
U
Dia
mete
r (m
m)
\OOMf^O(N OSOO’^OS'O^ rj- rj- tj- rd rd rd 2
.78
2
.47
No. o
f str
an
ds
c- c~ r~ c- r- r-
Kil
og
ram
s p
er
kil
om
ete
r
rdos^^sdu- hTrosmx^
116.8
9
2.7
7
73
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00 OS ro 04 04 SO
oo sd sd TiTf ff)
r- r- vsOvsOOsfS o^fNvsou
Os cd 00 Os v-i r4(N - -h
3.6
05
2
.25
9
1.4
32
Oh
ms
per
kil
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r m sO rn 00 Os O © ^ ‘/'s ^ < c-j r-(N ^ rn fN r<) (N (N Cj f<) IT)
© © © © © © 0.6
715
0.8
457
1
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7
1.3
46
1
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5
2.1
42
— r-osoiTj- O 0\ Os -h n o umrJ^-sou
r4 cd rr oo ro
SO 04 O UUOO
Tf Tf 04 m
Are
a
>q m
m) Q so Os
fnc^OTf t
irlvOU^Ur) m c4 o oo so «o
r- so so m so so
04 rd sd Tf f^lM 2
1.1
4
16.7
9
13
.28
ooosr-pr- Th-'CiOC V) r^. so u rs O
O 00 SO so rd CT 1.3
08
0
.81
95
0
.51
93
Nom
inal
size,
cir
cula
r m
ils
or
AW
G
266,8
00
250,0
00
0
,00
0
00
0
00
0
-h C4 ro Tf «o SO UXOsOM^r SO OO O — — C4
48
Tab
le 2
5 —
Str
anded A
lum
inu
m W
ire T
able
, A
llo
y,
EC
-H19—
Data
at
20 °
C —
Engli
sh U
nit
s
Outs
ide
dia
met
er
(mil
s)
2309
. 21
59.
1999
.
1824
.
(NOOOr-'TON
NO »/“) «/T Tfr 1413
.
1365
.
1316
.
1290
. 12
64.
1153
.
1093
.
1032
.
998.
8
964.
7 92
9.5
893.
2
854.
7 81
4.5
773.
1 729.0
681.
3
630.9
Cla
ss C
Dia
met
er
(mil
s)
121.
5 12
7.0
117.
6
121.
6 oqOfNoqr<)f^
od d d d h- o o o o © ON
r- p
oo no © o 10
1.2
99.2
97
.2
104.
8
99.4
93.8
90.8
87.7
84
.5
81.2
77.7
90
.5
85.9
81
.0
75.7
70.1
No.
of
stra
nds —■ r- r- on
r"- —< no (N(NM
On Os On On On Os 50 NO 50 so vO so 12
7
127 r- r- r-
C'j cr 91
91
ON Os Os Os On On NO 3 SO 61
61
Outs
ide
dia
met
er
(mil
s)
2309
. 21
58.
1998
.
1824
.
MO 00 50 5 ^ m (J\ T (N O NO v~) «/~i VA rf 14
12.
1364
.
1315
.
1289
. 12
63.
1152
.
1094
.
1031
.
998.
1
963.9
92
8.8
892.
8
855.
0 81
3.4
772.
1 72
8.0
681.
1
630.
0
Cla
ss B
Dia
met
er
(mil
s)
135.
8 14
3.9
133.
2
140.
3 </N >-< TfM M
«/S r4 on —' — —■ 12
8.4
124.
0
119.
5
117.
2 11
4.8
128.
0
121.
5
114.
5
110.
9
107.
1 10
3.2
99.2
95.0
11
6.2
110.
3 10
4.0
97.3
90.0
No.
of
stra
nds r- on on r-
NO NO fN MMMMMM 91
91
ON Os Os 61
61
NO NO NO NO NO NO rrj r- r- 37
37
Ou
tsid
e dia
met
er
(mil
s) od oo <n cd On
vr, On ^h (N (N _ on on oc r- 16
30.
1454
. 14
17.
1379
.
1339
.
1300
.
1258
. 12
16.
MMNO^M r- »A) on
1028
. 99
8.1
974.
7 9
63
.9
917.7
89
1.1
858.
2
813.
4 79
4.5 */■) V) l/“) •/")
rd od no od M M 'O M t NO NO NO
Cla
ss A
Dia
met
er
(mil
s)
O u oo U (N
^drdrdt/Sr"- no so 14
8.2
132.
2 15
7.4
153.
2
148.
8
144.
4
139.
8 13
5.1 (N O ‘Ci U
O 00 ud ^ ON r<) M M M •—
fNJ Q\ C+S »—<
rr © od r-' — —© © 13
1.1
127.
3 12
2.6
116.
2 11
3.5
144.
7 13
5.7
133.
1 12
5.7
No.
of
stra
nds — —
<n on on on On ON NO so SO NO NO NO NO nO so so SO NO NO NO NO r- r- r- r-
m m m On On On On
<f-
Ou
tsid
e d
iam
ete
r (m
ils)
1525
.
1453
. 14
17.
1379
.
1339
.
1300
.
1258
. 12
16.
© — ^ cr no MWNMONM
—1 1 o ©
OOMVNM
NO NO rd <N 00 C^l ON t"** NO CT © On Os Os Os 91
7.7
891.
1 85
5.5
811.0
79
2.0
769.
5
723.
5
Cla
ss A
t
Dia
met
er
(mil
s)
169.
4
161.
4 15
7.4
153.
2
148.
8
144.
4
139.
8 13
5.1
167.
1 16
4.4
160.
6 15
6.0
153.
7
no cvi on r- cn I1 Tt ft) ft) f<)
131.
1 12
7.3
171.
1
162.
2 15
8.4
153.
9
144.
7
No. o
f st
rands
SO NO NO NO NO NO NO NO r-r-r-t^r- m m m m m
r^r-r-r^r- r- r- On On On c*n m *—i ( —i
O ON
Pounds
per
10
00 f
eet
do ri d oo ri XmOO'Orir- 18
76.
1783
. 16
91.
1643
. 15
96.
1501
. c4 on od ^ rd oo ON — o ^ — NO rf ''t -«tff)r)M
O ^ cd so Os iri (NOn M T
^ o
OOMamiA
on od «/d ud o rr-) no ON Tj- r4 © ON ON 00 OO 00
© NO ^ C'i NO © © r- ^
no no no
© OS (N 00 fN IT)
r- cr c4 no On ONNOM — NO^ \rs ia) u-) rt rt 4
22
.4
375.7
37
3.5
328.4
316.0
281.8
Oh
ms
per
10
00 f
eet
0.0
04
41
8
0.0
05
05
3
0.0
05894
0.
0063
71
0.0
07009
0
.00
77
87
0.0
08677
0.0
09129
0.0
09627
0
.00
99
07
0
.01
02
0
0.0
10
85
0.01
091
0.0
11
48
0
.01
15
6
0.01
211
0.0
12
39
0.0
1284
0.0
13
35
0
.01
36
3
0.0
1387
0
.01
44
6
0.0
14
55
0.0
1558
0.0
1578
0
.01
67
9
0.0
1734
0.0
1817
0
.01
92
6
0.0
1984
0.0
2168
0.
0218
1 0.
0231
1 0
.02
42
2
0.0
2479
0
.02
66
6
0.0
2727
0
.02
89
2
0.0
3118
0.0
3150
0.0
3469
0.0
3638
0.0
3854
0
.04
33
3
0.0
4359
0.0
4957
0.0
5152
0.0
5777
No
min
al
size
, ci
rcula
r m
ils
or
AW
G
4,0
00,0
00
3
,50
0,0
00
3
,00
0,0
00
2
,75
0,0
00
2
,50
0,0
00
2,2
50,0
00
2,0
00
,00
0
1,9
00,0
00
1,8
00,0
00
1,7
50,0
00
1,7
00,0
00
1,6
00,0
00
1,5
90
,00
0
1.5
10.5
00
1,5
00,0
00
1,4
31,0
00
1,4
00,0
00
1.3
51.5
00
1,3
00,0
00
1,2
72,0
00
1,2
50,0
00
1,2
00,0
00
1,1
92,5
00
1
,11
3,0
00
1,1
00,0
00
1
,03
3,5
00
1
,00
0,0
00
954,0
00
900,0
00
874,0
00
©<©©©©© ©©©©©© ©. ©^ © ©^ ©_
©" ©" ©" © © on —< © «/~> oo t i-" r-' r— so
©©<©©©© ©©©©©© ©_ ©^ »/t ©_ ©_ ©^
so ©" no" ©" ©" rd m © t/-> vs © nOno
000800 © ©_ ©^ tT ©^
0" ©" r-" ©" no" ©" it, © on ia r> O tj- tj- r<N m m m
49
Tab
le 25—
Str
anded A
lum
inu
m W
ire T
able
, A
llo
y,
EC
-H1
9 —
Data
at
20 °
C —
Engli
sh U
nit
s —
Co
nti
nu
ed
Ou
tsid
e
dia
mete
r (m
ils)
O (N —< O X NO ON ® ON 0- oi 0- oi r-
ri tc o >c Ti q (O */C fO Tf QC NO riONNO^OX rr', (N (N (N Ct '—1
to «q q o iq iq to e^ e^ oi <o NOrfm^ONU
•o 00 to
Cla
ss C
Dia
mete
r (m
ils)
O *0 rnO ^ ■T Iri U 6 no o~ no no »o
no —■ no on E" 09 e- on oi no E" Tf U-) to Tf Tt CO
—‘torT^j-tor- rcONNOfCCO'T
11.7
No. o
f str
an
ds
-r-r-r-r- ,vO m n m m
U On On On On On On On On On On On On
Ou
tsid
e
dia
mete
r (m
ils)
O o «o «0
lei K d oo tN UMU-h 1C| Id Tj Tt
O 04 —• NO Tfr NO oi oi o ^ no ro ro ON NO ro O 00 fC(N(NN(N-H
»o oq NO «o to NO cO «0 ON to —* 04 n.O T (N -h O E
NO NOO eViNC •O Tj- CO
Cla
ss B
Dia
mete
r (m
ils)
ri o u ri ^ oo o on oo r-
^ ^ U (N 00 (N no no e**’ oo «-i NO On oo e- NO NO
tO NO 04 »0 «0 04 tj-' oo cn oo O IO Tf -r rc rc (N
04 04 *—* ON to 04
No.
of
str
an
ds
O- Os Ov On On on r- r- r- r- e- r- r- r- r- r- e- r-
Ou
tsid
e
dia
mete
r (m
ils)
<o »o o- t}- e- tt (Nf^-H'triOO On T" 04 no — NO IOVNIO Tf Tf ff) 3
27.9
292.2
231.6
18
3.6
< C/5 C/5 CS
<L> ^ <D c/5
>A) U ON 00 On OO oo ^ co tj- r- r j — U 1C) r^i n 0
9.3
9
7.4
77.2
61
.2
U E C cn c
5 w
° c o o o- 0- e- e- e~ e- r- e-
®2 ^ </)
Ou
tsid
e
dia
mete
r (m
ils)
On O U tJ U tT to K -h 't (^1 00 oo no oi no — no IT) *n VN Tf Tf n 3
27.9
292.2
Cla
ss A
i
Dia
mete
r (m
ils)
cq O On oo on oo to On ro rt E" r4 0\ X U Ti n (N
109.3
9
7.4
No.
of
str
ands
e- e~ e~ e- e- r- e-
Po
un
ds
per
1000 f
eet ON
NO E U O O 6 ^ 00 E-Vi ON •O r^) On vn rt On (NM-* - -
OTOnnOO-h lAif^rri-^NO oo oi on on ^ ^
NO Tf rc CNM
© CO 00 C^rNND'rT'—'rT ‘OtoNE'-X ON to oi ON NO ro 2
.422
1
.51
8
0.9
621
Oh
ms
per
1000 f
eet
0.0
64
95
0.0
6936
0
.08
19
2
0.1
034
0
.13
03
0
.16
43
tj- »-i no e~ ^ »o E- ^ ON »0 rO . O NO 04 04 NO 04 04 m tt to no o © © © © ©
’I’ ONX — (C o Ei fN E NO Ei OO © CO NO NO 04 o —: —: —; oi cr 6
.72
0
10.7
20
1
6.9
2
No
min
al
size,
cir
cu
lar
mil
s o
r A
WG
o o o o o o o o o o o OO O Q © N6c>^ NO to oi 04
e- oo on o (N Tf NO OO O —i —< 04
50
Tab
le 26
—S
tranded A
lum
inum
Wir
e T
able
, A
lloy,
EC
-H1
9 —
Data
at
20 °
C —
Metr
ic U
nit
s
Outs
ide
dia
met
er
(mm
)
58.6
4 54
.84
50.7
8
46.3
3 VNO\(NON tt co co r-~ 04 o "OOnOOXU T ■'T co co co co 35
.89
34.6
7
33.4
2
32.7
6 32
.10
30.7
4
29.2
8
27.7
7
26.2
1
25.3
7
24.5
0
23.6
1
69'Z
Z 21
.71
20.6
9
19.6
4 18
.52
17.3
1
16.0
2
Cla
ss C
Dia
met
er
(mm
) ON co 05 ON © 04 On © co co 04 co
NO O'<N ON U UNO'O'A'Ci't 04 04 04 04 04 04 2.
76
2.67
2.57
2.52
2.
47
2.36
2.66
2.52
2.38
2.31
2.23
2.
15
2.06
1.97
2.
30
2.18
2.
06
1.92
1.78
No.
of
stra
nds —« r- r- on
r- ~ so (N (N (N — Os Os Os ON On On so so so so sO so 12
7
127 r- r- r-
04 r4 04
127 91
91
ON ON ON ON On ON 3 NO NO 61
61
Outs
ide
dia
met
er
(mm
)
58.6
4 54
.83
50.7
5
46.3
3 'I’OOr^UO'G T ^ rn d- r i o ^do\o6oou 35
.88
34.6
5
33.3
9
32.7
5 32
.08
30.7
1
20.9
6
27.7
7
26.1
7
25.3
5
24.4
8 23
.59
22.6
8
21.7
2 20.6
6
19.6
1 18
.49
17.3
0
16.0
0
Cla
ss B
Dia
met
er
(mm
)
lO SO 00 SO 'T NO CO Uq co
ON - rnX T on -■-qqoNoo co co co 04 04 04 3.
26
3.15
3.04
2.98
2.
92
2.79
3.25
3.09
2.91
2.82
2.72
2.
62
2.52
2.41
2.
95
2.80
2.
64
2.47
2.29
No.
of
stra
nd
s on on r- SO so 04 fN fN C9 04 04 04 91
91
On On On 91
61
61
NO NO NO NO SO sOto r- r- CO CO 37
37
Ou
tsid
e dia
met
er
(mm
)
->0)OOfN oo p on rf O 00 NO co •C Id T T T 41
.41
36.9
4 35
.98
35.0
2
34.0
2
33.0
1
31.9
6
30.8
8 NDNDOUNO hrjqhn on on oo oo (N (N (N (N (N
-h^NOOO ^ cq 0q tJ- sd ST) ^ fSMNfN 23
.31
22.6
3 21.8
0
20
.66
20
.18 00 co © NO
co 04 On On oo u d "o
Cla
ss A
Dia
met
er
(mm
)
(N O — — On fN On 't (N O)
CO Tf Tf CO 3.76
3.36
4.0
0
3.89
00 r- co 3.
67
3.55
3.
43 lo OO On
CO 04 © © co c<N co co co
orrcM Onoouu 04 04 o4 or
co co —> cq rn —> rn rnrn 2.
95
2.88
00 00 ON NO Tj- CO —< CO CO CO CO
No.
of
stra
nds
(N Ct On On O' ON ON SO SO so NO NO SO NO NO so SO SO NO NO NO NO r- r- r- co co m r- co On On On ON
<
Ou
tsid
e dia
met
er
(mm
)
38.7
2
36.9
0 35
.98
35.0
2
34.0
2
33.0
1
31.9
6 30
.88 U ri T| r^i
ON On 00 (N(NM(N(N
unmiriM o p r- p no NO i/O Tt rfr co (N (N (N (N n 23
.31
22.6
3 21
.73
20.6
0 20
.12
19.5
5
18.3
8
< C/5
03 u
Dia
met
er
(mm
)
4.3
0
4.1
0
4.0
0
3.89
3.78
3.67
3.55
3.
43 Tt OO 00 NO o cnJ *—* © On On
rf tj-’ tt co co fq so */q rf co co co co co co
co co no fsn co m co © co co ’T -cf tJ- 3.
91
3.68
No
. o
f st
ran
ds
NO NO NO NO NO so VD 3 r- r- r- r- co co co co co
r-r-r-r^r- co co co co co
r- r- ON ON On coro-H ON ON
Kil
ogra
ms
per
kil
om
eter
Q t!00 ri OXUUUU r- on 04 oo ^
T T m m r^i
o4 rt tt on ici -h tj- m (N(NfN(NrUN
O-NOO'CiU 04 « On © *0 00 04 — © © ON 00 04 04 04 04 ^ ^
«0) 0" NO l/T NO »/T -U TUNOON oo r-^ ( so so •/“)
«/d co r^' co oo ^ r i T ^ 'C M Ti Tt ri ffi rs rt 11
17.
mi.
10
48.
1000
. 97
7.3
908.9
so ^ cq © 00 On 00 NO OO co t so On so oo oo r- r- no no 62
8.7
559.
1 00 00 04 p •40 oo © On •/N 00 t • •—< •o T T T
Oh
ms
per
kil
om
eter
0.0
1450
0.0
1658
0.0
1934
0
.02
09
0
0.0
22
99
0
.02
55
5
0.0
28
47
0.0
2995
0
.03
15
8
0.0
32
50
0.0
3347
0
.03
55
9
0.0
3580
0.0
3765
0.0
3792
0
.03
79
4
0.0
40
66
04 04 o © 0
.04378
0
.04
47
3
0.0
4552
0.0
4744
0
.04
77
2
0.0
5110
0.0
51
77
0.0
5507
0.0
5689
0.0
5962
0
.06
31
9
0.0
65
09
0.0
7114
0
.07
15
5
0.0
75
83
0
.07
94
7
0.0
81
33
0.0
8746
0.0
8947
0.0
9489
0
.10
23
0.1
033
0
.11
38
0
.11
93
0.1
26
4
0.1
42
2
0.1
43
0
0.1
62
6
0.1
69
0
0.1
895
Are
a (s
q m
m)
oo co © co so On (N U M O' NO
. «/q 00 o ^
co C4 04 r- «—• © '-^NO — OONO^- O OS OS 00 00 00 8
05
.2
76
5.8
7
60
.2
72
5.4
7
09
.0
^r 00 NO 6
58.5
644.5
6
33
.4
60
7.7
60
4.1
564.2
On in r- no co os
no co no co sc o-i IT) I/O I/O Tf Tf Tf
C4 ON fN OC >C) NO •c) ri 6 ri ^ G\ © © OO NO */’") C4
rr oo oo © co no 04 CO •—< ON CO ■—• m © oo nt, co ro n n n (N
© 00 NO cq NO •—1 oc r~i — r- © 04 ot © © r- r- ncn (N (N U -H -h
Nom
inal
si
ze,
circ
ula
r m
ils
or
AW
G
4,0
00,0
00
3
,50
0,0
00
3
,00
0,0
00
2
,75
0,0
00
2,5
00,0
00
2,2
50,0
00
2,0
00
,00
0
1,9
00
,00
0
1,8
00,0
00
1,7
50,0
00
1,7
00,0
00
1,6
00,0
00
1,5
90,0
00
1.5
10.5
00
1,5
00,0
00
1,4
31,0
00
1.4
00.5
00
1,3
51,0
00
1,3
00
,00
0
1,2
72
,00
0
1,2
50
,00
0
1,2
00
,50
0
1,1
92
,00
0
1,1
13
,00
0
1,1
00,0
00
1
,03
3,5
00
1
,00
0,0
00
954,0
00
900,0
00
874,5
00
©©©©©© ©©©©©© ©_ p_ ©^ NO ©^ ©^
o’ *0 o' »0 o’ © © ON I/O ^- © I/O oo r- r- r- no 6
36,0
00
600,0
00
556,5
00
5
50
,00
0
500,0
00
477,0
00
©©©©©© ©©©©©© ©_ ©_ uo ©_ TT © o' © ©" no ©* no © On ro © Tj- Tf CO CO CO CO
51
Table 26-S
tranded A
lum
inu
m W
ire T
able
, A
lloy,
EC
-H 1
9- D
ata
at
20 °C
- M
etr
ic U
nit
s-C
on
tin
ued
Outs
ide
dia
met
er
(mm
)
ri ^ b-b' a so O', so tj-
tT cd -d d On
n'^O'OsOTj- OlOX^ONtN rj- in SO 0\ (N
oo rd so «/d «/d tt
^EhfNOE O't (Nb'^'O <N rr ON rr 00
rf rd rd <N rd ^ 1.48
6
Cla
ss C
Dia
met
er
(mm
)
f**> fN -h fN SO ’—0TTON'>OTf fNI rr ^ © on
n b> on oqr-sOTiTrrq
d d d d d d
O rr
d N
o.
of
stra
nds — r- r- r- l On On O' On On On (O' On On On On ON
Ou
tsid
e dia
met
er
(mm
)
<N SO ^ Os vO ^
TfVi - d O)
rr C9 rr m rr r^KNOX^sC Tf Tf sq X (N so
oo rd so id t/d rr
rr rr r4 tj- ^ <A,OONr^(N^ —< C9 On rn 00
Tj" rd rd rd rsi 1.46
3 1.
158
0.9
22
Cla
ss B
Dia
met
er
(mm
)
On X © SO rn »-« 00
ri (N ri(N ^
On t O'C'G'C so 'T (N^\ b' IT) —« <n ri ~ -d
00 fD o 00 r** «—i ro C9 — ON E- SO
--dodo
ON ON — fflff)
odd
No.
of
stra
nd
s r^- Os Os Os Os on r- r- r- r- r- r- r- r- r- r- r- r-
Ou
tsid
e dia
met
er
(mm
)
r- h 1C C ->
O'onoo'nr)
»/d Tt fd *d © Os 8.3
29
7.
422
5.88
3
4.66
3
Cla
ss A
Dia
met
er
(mm
)
->-(NfbO(N OC\'tO\‘A —
fd <N tj-' rd fd fd 2.78
2.
47
1.96
1.55
No.
of
stra
nds ososr^r^E-r' C" r- r" r-
<
Ou
tsid
e dia
met
er
(mm
)
r- WO'OO-'O oo (N oo ^
d d - d On 8.3
29
7.4
22
< <Sl (/>
—
u
Dia
met
er
(mm
)
\0 O (N ri o N OnOCtTON^ —
rt tJ- rd rd rd 2.78
2.
47
No
. of
stra
nds r- r- r-* r- r- r-
Kil
ogra
ms
per
kil
om
eter
cdos^^sdr- r- ON 00 TT
r- — 00 ON rr\ 00 •'T (N <N SO
so C9 rd 00 so so -ONE«Ci^f<3
r- r- iriO'GO^fN O-fN^Oh
On rd oo Tf on vd rsi <n — —
3.60
5 2.2
59
1.
432
Oh
ms
per
kil
om
eter
— </"> oo o I-" oo On r- On
—• r-J sO m r4 rr n (N C9 r<-, tCi
© d © © o d 0.6
80
4
0.8
56
8
1.08
1 1.
364
1.71
7 2.1
70
so —»/r m
t^. T ^ ^ oo r4 rd tt «/d oo rd
22.0
5 35
.18
55.5
1
Are
a (s
q m
m) Q «r> on rrr^rr©TtTf
vd sd r- vd cd
r- «/-) so on oo sCsC —> r- C9
fN rd sd —< sd rd t ^ (N n -h —
oooNt^or-
trifnso Nf^O
© oo sd ud rd rd 1.30
8 0.8
195
0.5
193
Nom
inal
si
ze,
circ
ula
r m
ils
or
AW
G
266,8
00
250,0
00
0
00
0
00
0
00 0 -H (N ri ^ IC1 'O r- oo on o rr rr SO oo O
— — Cs|
52
Table 27 —Stranded Aluminum Wire Table, Alloy, 5005-H 19— Data at 20 °C — English Units
Nominal size,
circular mils or AWG
Ohms per 1000 feet
Pounds per 1000 feet
Class AA Class A
Number of strands
Diameter (mils)
Outside diameter
(mils)
Number of strands
Diameter (mils)
Outside diameter
(mils)
5,000,000 0.004072 4831. 127 198.4 2579. 4,500,000 0.004520 4351. 127 188.3 2448. 4,000,000 0.005038 3830. 127 177.5 2308. 3,500,000 0.005761 3350. 127 166.0 2158. 3,000,000 0.006718 2872. 91 181.6 1998. 2,500,000 0.007991 2368. 91 165.7 1823.
2,300,000 0.008679 2181. 91 159.0 1749. 2,049,500 0.009742 1943. 61 183.3 1650. 2,000,000 0.00998 1896. 61 181.1 1630. 1,926,000 0.01027 1808. 61 177.7 1599. 1,900,000 0.01041 1784. 61 176.5 1589. 1,800,000 0.01098 1690. 61 171.8 1546.
1,750,000 0.01130 1643. 61 169.4 1525. 1,700,000 0.01207 1538. 61 163.9 1475. 1,600,000 0.01235 7503. 61 162.0 1458. 1,500,000 0.01318 1408. 61 156.8 1411. 1,400,000 0.01412 1314. 61 151.5 1364. 1,300,000 0.01521 1221. 61 146.0 1314.
1,272,000 0.01555 1194. 37 185.4 1298. 61 144.4 1300. 1,250,000 0.01582 1173. 37 183.8 1287. 61 143.2 1289. 1,200,000 0.01648 1127. 37 180.1 1261. 61 140.3 1263. 1,193,000 0.01657 1120. 37 179.6 1257. 61 139.9 1259. 1,111,000 0.01779 1043. 37 173.3 1213. 1,100,000 0.01798 1032. 37 172.4 1207.
1,092,330 0.01811 1025. 37 171.8 1203. 61 133.8 1204. 1,077,382 0.01834 1012. 37 170.7 1195. 61 132.9 1196. 1,000,000 0.01977 938.7 37 164.4 1151.
927,200 0.02133 870.4 37 158.3 1108. 900,000 0.02196 845.3 37 156.0 1092. 833,600 0.02372 782.5 37 150.1 1051.
800,000 0.02473 750.5 37 147.0 1029. 750,000 0.02635 704.3 37 142.4 996.8 740,800 0.02669 695.4 37 141.5 990.5 704,600 0.02806 661.5 37 138.0 966.0 700,000 0.02827 656.7 37 137.5 962.5 652,400 0.03031 612.4 19 185.3 926.5
650,000 0.03044 609.8 37 132.5 927.5 648,470 0.03049 608.9 37 132.4 926.8 600,000 0.03298 562.9 37 127.3 891.1 37 127.3 891.1 587,200 0.03367 551.2 19 175.8 879.0 559,500 0.03534 525.2 19 171.6 858.0 556,050 0.03555 522.1 37 122.6 858.2
550,000 0.03596 516.1 37 121.9 853.3 503,600 0.03926 472.7 19 162.8 814.0 500,000 0.03956 469.2 19 162.2 811.0 465,400 0.04249 436.8 19 156.5 782.5 450,000 0.04394 422.4 19 153.9 769.5 463,245 0.04268 434.9 37 111.9 783.3
419,600 0.04713 393.9 19 148.6 743.0 400,000 0.04943 375.5 19 145.1 725.5 394,500 0.05012 370.4 19 144.1 720.5 392,470 0.05037 368.5 37 103.0 721.0 355,100 0.05569 333.3 19 136.7 683.5 350,000 0.05651 328.4 19 135.7 678.5
349,565 0.05656 328.2 37 97.2 680.4 312,800 0.06322 293.6 19 128.3 641.5 311,120 0.06355 292.1 37 91.7 641.9 300,000 0.06586 281.8 19 125.7 628.5 281,400 0.07026 264.2 19 121.7 608.5 250,000 0.07910 234.7 19 114.7 573.5
246,900 0.08009 231.8 7 187.8 563.4 246,835 0.08008 231.8 19 114.0 570.0
0000 0.0934 198.7 7 173.9 521.7 7 173.9 521.7 195,785 0.1010 183.8 19 101.5 507.5 195,700 0.1010 183.7 7 167.2 501.6
000 0.1179 157.5 7 154.8 464.4 7 154.8 464.4
53
Table 27-Stranded Aluminum Wire Table, Alloy, 5005-H 19-Data at 20 °C-English Units-Con.
Nominal size,
circular mils or AWG
Ohms per 1000 feet
Pounds per 1000 feet
Class AA Class A
Number of strands
Diameter (mils)
Outside diameter
(mils)
Number of strands
Diameter (mils)
Outside diameter
(mils)
155,610 0.1271 146.1 19 90.5 452.5 155,400 0.1272 145.9 7 149.0 447.0
00 0.1485 125.0 7 137.9 413.7 7 137.9 413.7 123,424 0.1602 115.9 19 80.6 403.0 123,300 0.1604 115.7 7 132.7 398.1
0 0.1873 99.09 7 122.8 368.4 7 122.8 368.4
97,917 0.2018 91.96 7 118.3 354.9 97,800 0.2019 91.95 19 71.8 359.0 77,470 0.2552 72.72 7 105.2 315.6
2 0.2977 62.34 7 97.4 292.2 7 97.4 292.2 61,450 0.3217 57.69 7 93.7 281.1 48,690 0.4061 45.71 7 83.4 250.2
4 0.4740 39.16 7 77.2 231.6 30,580 0.6465 28.71 7 66.1 198.3
6 0.7542 24.61 7 61.2 183.6
54
Table 28-Stranded Aluminum Wire Table, Alloy, 5005-H 19- Data at 20 °C —Metric Units
Nominal size,
circular mils or AWG
Area (sq mm)
Ohms per kilometer
Kilograms per kilometer
Class AA Class A
Number of
strands
Diameter (mm)
Outside diameter
(mm)
Number of
strands
Diameter (mm)
Outside diameter
(mm)
5,000,000 2533. 0.01336 7189. 127 5.04 65.51 4,500,000 2282. 0.01483 6476. 127 4.78 62.18 4,000,000 2027. 0.01653 5700. 127 4.51 58.61 3,500,000 1773. 0.01890 4985. 127 4.22 54.81 3,000,000 1521. 0.02204 4275. 91 4.61 50.74 2,500,000 1266. 0.02622 3525. 91 4.21 46.30
2,300,000 1166. 0.02847 3245. 91 4.04 44.42 2,049,500 1039. 0.03196 2891. 61 4.66 41.90 2,000,000 1014. 0.03274 2822. 61 4.60 41.40 1,926,000 976. 0.03368 2691. 61 4.51 40.62 1,900,000 962.9 0.03414 2655. 61 4.48 40.35 1,800,000 912.3 0.03603 2515. 61 4.36 39.27
1,750,000 887. 0.03706 2445. 61 4.30 38.72 1,700,000 830.3 0.03959 2289. 61 4.16 37.47 1,600,000 811. 0.04052 2236. 61 4.11 37.03 1,500,000 759.4 0.04325 2095. 61 3.98 35.84 1,400,000 709.4 0.04633 1956. 61 3.85 34.63 1,300,000 658.9 0.04989 1817. 61 3.71 33.38
1,272,000 644.4 0.05101 1777. 37 4.71 32.96 61 3.67 33.01 1,250,000 633.4 0.05190 1746. 37 4.67 32.68 61 3.64 32.74 1,200,000 608.1 0.05405 1677. 37 4.57 32.02 61 3.56 32.07 1,193,000 604.7 0.05435 1667. 37 4.56 31.93 61 3.55 31.98 1,111,000 563.1 0.05838 1552. 37 4.40 30.81 1,100,000 557.2 0.05899 1536. 37 4.38 30.65
1,092,330 553.4 0.05940 1526. 37 4.36 30.55 61 3.40 30.59 1,077,382 546.3 0.06017 1506. 37 4.34 30.35 61 3.38 30.38 1,000,000 506.7 0.06487 1397. 37 4.18 29.23
927,200 469.8 0.06997 1295. 37 4.02 28.15 900,000 456.3 0.07204 1258. 37 3.96 27.74 833,600 422.4 0.07782 1165. 37 3.81 26.69
800,000 405.6 0.08114 1117. 37 3.73 26.14 750,000 380.2 0.08646 1048. 37 3.62 25.32 740,800 375.4 0.08757 1035. 37 3.59 25.16 704,600 357.0 0.09206 984.4 37 3.51 24.54 700,000 354.5 0.09273 977.3 37 3.49 24.45 652,400 330.6 0.09944 911.4 19 4.71 23.53
650,000 329.6 0.09987 907.5 37 3.37 23.56 648,470 328.7 0.1000 906.1 37 3.36 23.54 600,000 303.8 0.1082 837.6 37 3.23 22.63 37 3.23 22.63 587,200 297.5 0.1105 820.3 19 4.47 22.33 559,500 283.5 0.1159 781.6 19 4.36 21.79 556,050 281.8 0.1166 776.9 37 3.11 21.80
550,000 278.6 0.1180 768.1 37 3.10 21.67 503,600 255.3 0.1288 703.5 19 4.14 20.68 500,000 253.3 0.1298 698.3 19 4.12 20.60 465,400 235.8 0.1394 650.1 19 3.98 19.88 450,000 228.0 0.1442 628.7 19 3.91 19.55 463,245 234.8 0.1400 647.2 37 2.84 19.90
419,600 212.6 0.1546 586.1 19 3.77 18.87 400,000 202.7 0.1622 558.8 19 3.69 18.43 394,500 199.9 0.1644 551.2 19 3.66 18.30 392,470 198.9 0.1653 548.4 37 2.62 18.31 355,100 179.9 0.1827 496.0 19 3.47 17.36 350,000 177.3 0.1854 488.8 19 3.45 17.23
349,565 177.1 0.1856 488.4 37 2.47 17.28 312,800 158.5 0.2074 436.9 19 3.26 16.29 311,120 157.7 0.2085 434.7 37 2.33 16.30 300,000 152.1 0.2161 419.4 19 3.19 15.96 281,400 142.6 0.2305 393.1 19 3.09 15.46 250,000 126.7 0.2595 349.2 19 2.91 14.57
246,900 125.1 0.2628 344.9 7 4.77 14.31 246,835 125.1 0.2627 345.0 19 2.90 14.48
0000 107.3 0.3064 295.7 7 4.42 13.25 7 4.42 13.25 195,785 99.18 0.3314 273.5 19 2.58 12.89 195,700 99.16 0.3315 273.4 7 4.25 12.74
000 85.00 0.3867 234.3 7 3.93 11.80 7 3.93 11.80
55
Table 28 —Stranded Aluminum Wire Table, Alloy, 5005-H19 — Data at 20 °C —Metric Units —Con.
Nominal size,
circular mils or AWG
Area (sq mm)
Ohms per kilometer
Kilograms per kilometer
Class AA Class A
Number of
strands
Diameter (mm)
Outside diameter
(mm)
Number of
strands
Diameter (mm)
Outside diameter
(mm)
155,610 78.85 0.4169 217.4 19 2.30 11.49 155,400 78.75 0.4174 217.1 7 3.78 11.35
00 67.45 0.4873 186.0 7 3.50 10.51 7 3.50 10.51 123,424 62.54 0.5256 172.4 19 2.05 10.24 123,300 62.46 0.5263 172.2 7 3.37 10.11
0 53.49 0.6145 147.5 7 3.12 9.357 7 3.12 9.357
97,917 49.64 0.6622 136.9 7 3.00 9.014 97,800 49.63 0.6623 136.8 19 1.82 9.119 77,470 39.25 0.8374 108.2 7 2.67 8.016
2 33.65 0.9769 92.77 7 2.47 7.422 7 2.47 7.422 61,450 31.14 1.056 85.86 7 2.38 7.140 48,690 24.67 1.332 68.02 7 2.12 6.355
4 21.14 1.555 58.28 7 1.96 5.883 30,580 15.50 2.121 42.73 7 1.68 5.037
6 13.28 2.474 36.63 7 1.55 4.663
56
Table 29 —Stranded Aluminum Wire Table, Alloy, 6201-T81 — Data at 20 °C —English Units
Nominal size,
circular mils or AWG
Ohms per 1000 feet
Pounds per 1000 feet
Class AA Class A
Number of strands
Diameter (mils)
Outside diameter
(mils)
Number of strands
Diameter (mils)
Outside diameter
(mils)
3,500,000 0.005870 3350. 127 166.0 2158. 3,000,000 0.006848 2872. 127 153.7 1998. 2,750,000 0.007402 2606. 91 173.8 1912. 2,500,000 0.008143 2368. 91 165.7 1823. 2,250,000 0.009048 2132. 91 157.2 1729. 2,000,000 0.01008 1876. 91 148.2 1630.
1,750,000 0.01151 1643. 61 169.4 1525. 1,590,000 0.01268 1492. 61 161.4 1453. 91 132.2 1454. 1,510,500 0.01333 1419. 61 157.4 1417. 61 157.4 1417. 1,431,000 0.01407 1344. 61 153.2 1379. 61 153.2 1379. 1,351,500 0.01492 1268. 61 148.8 1339. 61 148.8 1339. 1,272,000 0.01591 1198. 61 144.1 1297. 61 144.1 1297.
1,192,500 0.01690 1119. 61 139.8 1258. 61 139.8 1258. 1,113,000 0.01810 1045. 61 135.1 1216. 61 135.1 1216. 1,033,500 0.01950 969.8 37 167.1 1170. 61 130.2 1172. 1,000,000 0.02015 938.7 37 164.4 1151. 61 128.0 1152.
927,200 0.02173 870.4 37 158.3 1108. 900,000 0.02238 845.3 37 156.0 1092.
800,000 0.02520 750.5 37 147.0 1029. 750,000 0.02686 704.3 37 142.4 996.8 740,800 0.02720 695.4 37 141.5 990.5 700,000 0.02880 656.7 37 137.5 962.5 652,400 0.03089 612.4 19 182.3 926.5 650,000 0.03102 609.8 37 132.5 927.5
600,000 0.03360 562.9 37 127.3 891.1 37 127.3 891.1 559,500 0.03601 525.2 19 171.6 858.0 550,000 0.03665 516.1 37 121.9 853.3 500,000 0.04031 496.2 19 162.2 811.0 465,400 0.04330 436.8 19 156.5 782.5 450,000 0.04477 422.4 19 153.9 769.5
400,000 0.05037 375.5 19 145.1 725.5 394,500 0.05107 370.4 19 144.1 720.5 350,000 0.05759 328.4 19 135.7 678.5 312,800 0.06442 293.6 19 128.3 641.5 300,000 0.06712 281.8 19 125.7 628.5 250,000 0.08061 234.7 19 114.7 573.5
246,900 0.08161 231.8 7 187.8 563.4 0000 0.09518 198.7 7 173.9 521.7 7 173.9 521.7
195,700 0.1030 183.7 7 167.2 501.6 000 0.1201 157.5 7 154.8 464.4 7 154.8 464.4
155,400 0.1297 145.9 7 149.0 447.0 00 0.1514 125.0 7 137.9 413.7 7 137.9 413.7
123,300 0.1635 115.7 7 132.7 398.1 0 0.1909 99.09 7 122.8 368.4 7 122.8 368.4
96,320 0.2092 90.41 7 117.3 351.9 77,470 0.2601 72.72 7 105.2 315.6
2 0.3034 62.34 7 97.4 292.2 7 97.4 292.2 60,560 0.3328 56.83 7 93.0 279.0
48,690 0.4158 45.49 7 83.2 249.6 4 0.4830 39.16 7 77.2 231.6
38,090 0.5285 35.79 7 73.8 221.4 30,580 0.6588 28.71 7 66.1 198.3
6 0.7685 24.61 7 61.2 183.6 19,000 1.060 17.84 7 52.1 156.3
57
Table 30 —Stranded Aluminum Wire Table, Alloy, 6201-T81 — Data at 20 °C —Metric Units
Nominal size,
circular mils or AWG
Area (sq mm)
Ohms per kilometer
Kilograms per kilometer
Class AA Class A
Number of
strands
Diameter (mm)
Outside diameter
(mm)
Number of
strands
Diameter (mm)
Outside diameter
(mm)
3,500,000 1773. 0.01926 4985. 127 4.22 54.81 3,000,000 1520. 0.02247 4274. 127 3.90 50.75 2,750,000 1393. 0.02429 3878. 91 4.41 48.56 2,500,000 1266. 0.02672 3525. 91 4.21 46.30 2,250,000 1139. 0.02968 3172. 91 3.99 43.92 2,000,000 1013. 0.03308 2792. 91 3.79 41 41
1,750,000 887. 0.03776 2445. 61 4.30 38.72 1,590,000 805.2 0.04160 2220. 61 4.10 36.90 91 3.36 36.94 1,510,000 765.8 0.04374 2111. 61 4.00 35.98 61 4.00 35.98 1,431.000 725.4 0.04617 2000. 61 3.89 35.02 61 3.89 35.02 1,351,000 684.4 0.04895 1887. 61 3.78 34.02 61 3.78 34.02 1,272,000 641.8 0.05219 1770. 61 3.66 32.94 61 3.66 32.94
1,192,500 604.1 0.05545 1666. 61 3.55 31.96 61 3.55 31.96 1,113,000 564.2 0.05938 1555. 61 3.43 30.88 61 3.43 30.88 1,033,500 523.5 0.06399 1443. 37 4.24 29.71 61 3.31 29.76 1,000,000 506.7 0.06611 1397. 37 4.18 29.23 61 3.25 29.26
927,200 469.7 0.07130 1295. 37 4.02 28.15 900,000 456.3 0.07342 1258. 37 3.96 27.74
800,000 405.1 0.08268 1117. 37 3.73 26.14 750,000 380.2 0.08811 1048. 37 3.62 25.32 740,800 375.4 0.08923 1035. 37 3.59 25.16 700,000 354.5 0.0945 977.3 37 3.49 24.45 652,400 330.6 0.1013 911.4 19 4.71 23.53 650,000 329.1 0.1018 907.5 37 3.37 23.56
600,000 303.8 0.1103 837.6 37 3.23 22.63 37 3.23 22.63 559,500 283.5 0.1182 781.6 19 4.36 21.79 550,000 278.6 0.1202 768.1 37 3.10 21.67 500,000 253.3 0.1322 698.3 19 4.12 20.60 465,000 235.8 0.1412 650.1 19 3.98 19.88 400,000 228.0 0.1469 628.7 19 3.91 19.55
394,500 202.7 0.1653 558.8 19 3.69 18.43 350,000 199.9 0.1676 551.2 19 3.66 18.30 312,800 177.3 0.1889 488.8 19 3.45 17.23 300,000 158.5 0.2114 436.9 19 3.26 16.29 250,000 152.1 0.2202 419.4 19 3.19 15.96 246,900 126.7 0.2645 349.2 12 2.91 14.57
0000 125.1 0.2678 344.9 7 4.77 14.31 195,700 107.3 0.3123 295.7 7 4.42 13.25 7 4.42 13.25
000 99.16 0.3378 273.4 7 4.25 12.74 155,400 85.00 0.3941 234.3 7 3.93 11.80 7 3.93 11.80
00 78.75 0.4254 217.1 7 3.78 11.35 123,300 67.45 0.4966 186.0 7 3.50 10.51 7 3.50 10.51
0 62.46 0.5363 172.2 7 3.37 10.11 96,320 53.49 0.6263 147.5 7 3.12 9.357 7 3.12 9.357 77,470 48.80 0.6864 134.6 7 2.98 8.938
2 39.25 0.8533 108.2 7 2.*7 8.016 60,560 33.65 0.9955 92.77 7 2.47 1 7.422 7 2.47 7.422 48,690 30.68 1.092 84.58 7 2.36 7.087
4 21.14 1.585 58.28 7 1.96 5.883 38,090 19.32 1.734 53.26 7 1.87 5.624 30,580 15.50 2.161 42.73 7 1.68 5.037
6 13.28 2.521 36.63 7 1.55 4.663 19,000 9.628 3.479 26.54 7 1.32 3.970
58 U.S. GOVERNMENT PRINTING OFFICE : 1972 OLT 443-213
formNBS-114A 11-71)
U.S. DEPT. OF COMM. 1. PUBLICATION OR REPORT NO. 2. Gov t Accession
BIBLIOGRAPHIC DATA NBS-HB-109 N°' 3. Recipient s Accession No.
4. TITLE AND SUBTITLE
Aluminum Wire Tables
5. Publication Date
February 1972
6. Performing Organization Code
7. AUTHOR(S)
C. Peterson, J. L. Thomas, and H. Cook, Editors
8. Performing Organization
9. PERFORMING ORGANIZATION NAME AND ADDRESS
NATIONAL BUREAU OF STANDARDS
DEPARTMENT OF COMMERCE
WASHINGTON, D.C. 20234
10. Project/Taslc/Work Unit No.
11. Contract/Grant No.
12. Sponsoring Organization Name and Address
The Aluminum Association
13. Type of Report & Period Covered
Final
14. Sponsoring Agency Code
15. SUPPLEMENTARY NOTES
16. ABSTRACT (A 200-word or less factual summary of most significant information. If document includes a significant bibliography or literature survey, mention it here.)
This handbook of aluminum wire tables is a companion publication to NBS Handbook 100, Copper Wire Tables, a review of which is contained in Part I, Sections 1 and 2. Data are presented on the conductivities and resistivities of both solid and stranded wires of various sizes and composition, together with a variety of other data of interest to the designer of electrical equipment and installations. Values are expressed in both U.S. Customary and International System (SI) Units. Wire sizes involved are based on and restricted to those manufactured and typically used in the United States. American Wire Gage sizes are used for the smaller range of conductors from 56 gage through 4/0. Larger conductors are sized on the basis of circular mil area. The alloy compositions included in these tables are EC-0 (annealed), EC-H19, 5005-H19, and 6201-T81; values are given over a temperature range of 0 to 100 °C.
17. KEY WORDS (Alphabetical order, separated by semicolons)
Aluminum conductor; aluminum wire cables; conversion factors; electrical conductivity;
electrical conductor; electrical resistivity; standard values; temperature coefficient.
18. AVAILABILITY STATEMENT 19. SECURITY CLASS (THIS REPORT)
21. NO. OF PAGES
|X~I UNLIMITED.
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X 66
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UNCLASSIFIED
65 cents
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