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• A. J. Clark School of Engineering •Department of Civil and Environmental Engineering
Sixth Edition
CHAPTER
13
Construction Planning, Equipment,and Methods
BL STING ROCKL STING ROCK
ByBy
Dr. Ibrahim Assakkaf Dr. Ibrahim Assakkaf
ENCEENCE 420420 – – Construction Equipment and MethodsConstruction Equipment and Methods
Spring 2003Spring 2003
Department of Civil and Environmental EngineeringDepartment of Civil and Environmental Engineering
University of Maryland, College ParkUniversity of Maryland, College Park
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INTRODUCTIONINTRODUCTION
BLAST DESIGN BLAST DESIGN is not an exactis not an exact
science, but by considering thescience, but by considering the
rock formation it is possible torock formation it is possible to
produce the desired result.produce the desired result.This is a stepThis is a step--byby--step procedure forstep procedure for
designing the blast hole layout anddesigning the blast hole layout and
calculating the amount ofcalculating the amount of
explosives for blasting rock.explosives for blasting rock.
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INTRODUCTIONINTRODUCTION
””BlastingBlasting" is performed to break rock so" is performed to break rock so
that it may be quarried for processing inthat it may be quarried for processing inan aggregate production operation, or toan aggregate production operation, or toexcavate a rightexcavate a right--of of --way.way.
Blasting is accomplished by dischargingBlasting is accomplished by dischargingan explosive that has either beenan explosive that has either beenplaced in an unconfined manner, suchplaced in an unconfined manner, suchas mud capping boulders, or is confinedas mud capping boulders, or is confined
as in a borehole.as in a borehole.
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INTRODUCTIONINTRODUCTION
There are two forms of energy releasedThere are two forms of energy released
when high explosives are detonated,when high explosives are detonated,
shock and gas. An unconfined chargeshock and gas. An unconfined charge
works by shock energy, whereas aworks by shock energy, whereas a
confined charge has a high gas energyconfined charge has a high gas energy
output.output.
There are many types of explosives andThere are many types of explosives and
methods for using them.methods for using them.
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Blast designBlast designPowder factor Powder factor
VibrationVibration
Trench rockTrench rock
PresplittingPresplitting
ProductionProduction
TOPICSTOPICS
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GLOSSARY OF TERMSGLOSSARY OF TERMS
Face
Bench height
Burden distance
Spacing
Blasthole depth
Stemming
Subdrilling
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OVERVIEWOVERVIEW
Rock breakage results from gasRock breakage results from gas
pressure in the blasthole.pressure in the blasthole.
Radial crackingRadial cracking
Individual wedgesIndividual wedges Flexural ruptureFlexural rupture
Stiffness ratioStiffness ratio
bench height
burden distance
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BURDENBURDEN
It is the distance
to the free face
of theexcavation.
Burden distance is the most
criticaldimension in
blast design.
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COMMERCIALCOMMERCIAL
EXPLOSIVESEXPLOSIVES
There are four main categories ofThere are four main categories of
commercial high explosives:commercial high explosives:
1. Dynamite,2. Slurries,
3. ANFO, and
4. Two-component explosives.
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DYNAMITEDYNAMITE
The approximate strength of a dynamiteThe approximate strength of a dynamiteis specified as a percentage (weight ofis specified as a percentage (weight of
nitroglycerin to the total weight of anitroglycerin to the total weight of a
cartridge.cartridge.
Cartridges vary in size fromCartridges vary in size from
approximately 1 to 8 in. in diameter andapproximately 1 to 8 in. in diameter and
8 to 24 in. long.8 to 24 in. long.
Dynamite is used extensively forDynamite is used extensively forchargingcharging boreholesboreholes, especially for the, especially for the
smaller sizes.smaller sizes.
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Dynamite Cartridge
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DynamiteCartridge
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SLURRIESSLURRIES
Slurries is generic term used for bothSlurries is generic term used for both
water gelswater gels andand emulsionemulsion
They are water They are water --resistant explosiveresistant explosive
mixtures of ammonium nitrate and amixtures of ammonium nitrate and afuel sensitizer fuel sensitizer
The primary sensitizing methods are:The primary sensitizing methods are:
introduction of air throughout the mixture
the addition of aluminum particles
or the addition of nitrocellulose
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In comparison to different explosives (suchIn comparison to different explosives (such
as ANFO), slurries have a higher cost peras ANFO), slurries have a higher cost perpound and have less energypound and have less energy
However, their higher cost can be justified ifHowever, their higher cost can be justified if
used in wet conditionused in wet condition
They are not water They are not water --sensitivesensitive
An advantage of slurries over dynamite is An advantage of slurries over dynamite is
that the separate ingredients can be hauledthat the separate ingredients can be hauled
to the project in bulk and mixedto the project in bulk and mixedimmediately before loading theimmediately before loading the blastholesblastholes
SLURRIESSLURRIES
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ANFOANFO
ANFO is blasting agent that is ANFO is blasting agent that is
produced by mixingproduced by mixing prilledprilled ammoniumammonium
nitrate and fuel oilnitrate and fuel oil
This explosive is used extensively onThis explosive is used extensively onconstruction project and representsconstruction project and represents
about 80% of all explosives used inabout 80% of all explosives used in
the United Statesthe United States
ANFO is the cheapest and safest ANFO is the cheapest and safest
among othersamong others
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ANFOANFOANFO is an explosive used
extensively on construction projects.
Texas City, 16 April 1947
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ANFOANFO
The ANFO is made by blending 3.5The ANFO is made by blending 3.5
quarts of fuel oil with 100 lb ofquarts of fuel oil with 100 lb of
ammonium nitrate blastingammonium nitrate blasting prillsprills
This the optimum ratio.This the optimum ratio.
The detonation efficiency is controlledThe detonation efficiency is controlled
by this ratio.by this ratio.
Because the mixture is freeBecause the mixture is free--flowing, itflowing, it
can be blown orcan be blown or augeredaugered from the bulkfrom the bulk
trucks directly into thetrucks directly into the blasholesblasholes..
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INITIATING AND DELAYINITIATING AND DELAY
DEVICESDEVICES
It is common practice to fireIt is common practice to fireseveral holes or rows of holes atseveral holes or rows of holes at
one time.one time.
Fragmentation,Fragmentation, backbreakebackbreake,,
vibration, and violence of a blastvibration, and violence of a blast
are all controlled by the firingare all controlled by the firing
sequence of the individualsequence of the individualblastholes.blastholes.
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INITIATING AND DELAYINITIATING AND DELAY
DEVICESDEVICES
The order and timing of theThe order and timing of the
detonation of the individual holesdetonation of the individual holes
is regulated by the initiationis regulated by the initiation
system. Electric and nonsystem. Electric and non--electricelectricinitiation systems are available.initiation systems are available.
When selecting the properWhen selecting the proper
system, one should consider bothsystem, one should consider both
blast design and safety.blast design and safety.
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ELECTRIC BLASTING CAPSELECTRIC BLASTING CAPS
With an electric cap an explosion isWith an electric cap an explosion is
caused by passing an electric currentcaused by passing an electric current
through a wire bridge, similar to anthrough a wire bridge, similar to an
electric light bulb filament.electric light bulb filament.
A current of approximately 1.5 amps A current of approximately 1.5 amps
heats the bridge to ignite a heatheats the bridge to ignite a heat-- sensitivesensitive
flash compound.flash compound.
The ignition sets off a primer which in turnThe ignition sets off a primer which in turnfires a base charge in the cap.fires a base charge in the cap.
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DELAY BLASTINGDELAY BLASTING
SYSTEMSSYSTEMSDelay blasting caps are used to obtain aDelay blasting caps are used to obtain a
specified firing sequence.specified firing sequence.
These caps are available forThese caps are available for delay intervalsdelay intervals
varying from a small fraction of second tovarying from a small fraction of second toabout 7 seconds.about 7 seconds.
When explosives charges in two or moreWhen explosives charges in two or more
rows of holes parallel to the face are fired inrows of holes parallel to the face are fired in
one shot, it is desirable to fire the charges inone shot, it is desirable to fire the charges in
the holes nearest the face a short timethe holes nearest the face a short time
ahead of those in the second row.ahead of those in the second row.
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DELAY BLASTINGDELAY BLASTING
SYSTEMSSYSTEMS
This procedure will reduce the burdenThis procedure will reduce the burdenin the second row, and hence, willin the second row, and hence, will
permit the explosives in the secondpermit the explosives in the second
row to break more effectively.row to break more effectively.
In the case of more than two rows ofIn the case of more than two rows of
explosives, this same delayed firingexplosives, this same delayed firing
sequence will be followed for eachsequence will be followed for eachsuccessive row.successive row.
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DETONATING CORDDETONATING CORD
The detonating cord is a nonThe detonating cord is a non--
electric initiation system consistingelectric initiation system consisting
of a flexible cord having a centerof a flexible cord having a center
core of high explosive.core of high explosive.It is used to detonate dynamite andIt is used to detonate dynamite and
other capother cap--sensitive explosives.sensitive explosives.
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ROCK BREAKAGEROCK BREAKAGE
The major mechanisms of rockThe major mechanisms of rockbreakage result from the sustained gasbreakage result from the sustained gaspressure buildup in the borehole by thepressure buildup in the borehole by theexplosion.explosion.
First, this pressure will cause radialFirst, this pressure will cause radialcracking. Such cracking is similar tocracking. Such cracking is similar towhat happens in the case of frozenwhat happens in the case of frozenwater pipeswater pipes--a longitudinal split occursa longitudinal split occurs
parallel to the axis of the pipe.parallel to the axis of the pipe.
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ROCK BREAKAGEROCK BREAKAGE
A A borehole is analogous to the frozenborehole is analogous to the frozen
pipepipe in that it is a cylindrical pressurein that it is a cylindrical pressure
vessel. But there is a difference in thevessel. But there is a difference in the
rate of loading. Arate of loading. A blastholeblasthole isispressurized instantaneously. Failure,pressurized instantaneously. Failure,
therefore, instead of being at the onetherefore, instead of being at the one
weakest seam, is inweakest seam, is in manymany seamsseams
parallel to the borehole.parallel to the borehole.
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BLAST DESIGNBLAST DESIGN
Every blast must be designed toEvery blast must be designed to
meet the existing conditions ofmeet the existing conditions of
the rock formation andthe rock formation and
overburden, and to produce theoverburden, and to produce the
desired final result. There is nodesired final result. There is no
single solution to this problem.single solution to this problem.
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BLAST DESIGNBLAST DESIGN
Rock is not a homogeneousRock is not a homogeneous
material. There are fracturematerial. There are fracture
planes, seams, and changes inplanes, seams, and changes inburden to be considered.burden to be considered.
Wave propagation is faster inWave propagation is faster in
hard rock than in soft rock.hard rock than in soft rock.
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BLAST DESIGNBLAST DESIGN
Initial blast designs use idealizedInitial blast designs use idealizedassumptions. The engineer does thisassumptions. The engineer does this
realizing that discontinuities will berealizing that discontinuities will be
encountered in the field. Because ofencountered in the field. Because of
these facts, it must always bethese facts, it must always be
understood that the theoretical blastunderstood that the theoretical blast
design is only the starting point fordesign is only the starting point for
blasting operations in the field.blasting operations in the field.
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BLAST DESIGNBLAST DESIGN
A A trial blasttrial blast should always beshould always be
performed. It will either validateperformed. It will either validate
the initial assumptions orthe initial assumptions orprovide the information neededprovide the information needed
for final blast design.for final blast design.
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BURDENBURDEN
The most critical dimension in blastThe most critical dimension in blast
design is thedesign is the burden distanceburden distance asas
shown in Figure 1 (Fig 13shown in Figure 1 (Fig 13--1, Text)1, Text)
Burden distance is the shortestBurden distance is the shortest
distance to stress relief at the time adistance to stress relief at the time a
blasthole detonates. It is normally theblasthole detonates. It is normally the
distance to the free face in andistance to the free face in an
excavation, whether a quarry situationexcavation, whether a quarry situationor a highway cut.or a highway cut.
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BURDENBURDEN
Figure 1. Blasthole Dimensional Terminology
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BURDENBURDEN
Internal faces can be created byInternal faces can be created by
blastholesblastholes fired on an earlier delayfired on an earlier delay
within a shot. When the burdenwithin a shot. When the burden
distance is insufficient, rock will bedistance is insufficient, rock will bethrown for excessive distances fromthrown for excessive distances from
the face, fragmentation may bethe face, fragmentation may be
excessively fine, and air blast levelsexcessively fine, and air blast levels
will be high.will be high.
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BURDENBURDEN
Table 1. Density by Nominal Rock Classifications (Table 13-1, Text)
Rock Classification Specific Gravity Density Broken (ton/cu yd)Basalt 1.8 – 3.0 2.36 – 2.53
Dibase 2.6 – 3.0 2.19 – 2.53
Diorite 2.8 – 3.0 2.36 – 2.53
Dolomite 2.8 – 2.9 2.36 – 2.44
Gneiss 2.6 – 2.9 2.19 – 2.44
Granite 2.6 – 2.9 2.19 – 2.28
Gypsum 2.3 – 2.8 1.94 – 2.26
Hematite 4.5 – 5.3 3.79 – 4.47
Limestone 2.4 – 2.9 1.94 – 2.28
Marble 2.1 – 2.9 2.02 – 2.28
Quartzite 2.0 – 2.8 2.19 – 2.36
Sandstone 2.0 – 2.8 1.85 – 2.36
Shale 2.4 – 2.8 2.02 – 2.36
Slate 2.5 – 2.8 2.28 – 2.36
Trap Rock 2.6 – 3.0 2.38 – 2.53
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BURDENBURDEN
Explosive density is used inExplosive density is used in EqEq. 1 because. 1 because
of the proportional relationship betweenof the proportional relationship between
explosive density and strength.explosive density and strength.
There are, however, some explosiveThere are, however, some explosive
emulsions which exhibit differing strengthsemulsions which exhibit differing strengthsat equal densities.at equal densities.
In such a caseIn such a case EqEq. 1 will not be valid.. 1 will not be valid.
An equation based on relative bulk strength An equation based on relative bulk strength
instead of density can be used in suchinstead of density can be used in such
situations.situations.
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CHAPTER 13. BLASTING ROCK
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Example 1Example 1
A contractor plans to use dynamite that has specific A contractor plans to use dynamite that has specific
gravity of 1.3 to open an excavation in granite rock. Thegravity of 1.3 to open an excavation in granite rock. Thedrilling equipment available will drill a 3drilling equipment available will drill a 3--inin blastholeblasthole..
Dynamite comes packaged in 2 3/4Dynamite comes packaged in 2 3/4--in diameter sticks.in diameter sticks.
What is the recommended burden distance for the firstWhat is the recommended burden distance for the first
trial shot?trial shot?
From Table 1 (Table 14From Table 1 (Table 14--1 Text):1 Text):
ft7.6)75.2(5.18.2
)3.1(25.12
8.22
2.92.6Graniteof GravitySpecific
=
+=
+=
=+
=
e
r
e DSGSG B
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BULK STRENGTHBULK STRENGTH
Relative bulk strength is the strengthRelative bulk strength is the strength
ratio for a constant volume compared toratio for a constant volume compared to
a standard explosive such as ANFOa standard explosive such as ANFO
ANFO, ammonium nitrate and fuel oil, is ANFO, ammonium nitrate and fuel oil, is
the standard explosive with an energythe standard explosive with an energy--level rating of 100level rating of 100
The relative bulk strength rating shouldThe relative bulk strength rating should
be based on test data under specifiedbe based on test data under specified
conditionsconditions
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ANFOANFO
ANFO is an explosive used
extensively on construction projects.
Texas City, 16 April 1947
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Explosive diameter and
blasthole size are the same.
ANFO
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BULK STRENGTHBULK STRENGTH
The burden distance,The burden distance, BB, based on, based onrelative bulk energy is given byrelative bulk energy is given by
367.0r
ve
SG
St D B = (2)
SGr = specific gravity of the rock
De = diameter of the explosive, in.St v = relative bulk strength compared to ANFO
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BURDEN DISTANCEBURDEN DISTANCE
When one or two rows ofWhen one or two rows of blastholesblastholes
are used, the burden distanceare used, the burden distance
between rows will usually be equal.between rows will usually be equal.
If more than two rows are to be firedIf more than two rows are to be fired
in a single shot, either the burdenin a single shot, either the burden
distance of the rear holesdistance of the rear holes must bemust be
adjustedadjusted or delay devices must beor delay devices must be
used to allow the face rock from theused to allow the face rock from the
front rows to move.front rows to move.
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BURDEN DISTANCEBURDEN DISTANCE
The burden distance should also beThe burden distance should also be
adjusted because of the geologicaladjusted because of the geological
variations.variations.
Rock is not homogeneous materialRock is not homogeneous material
as assumed by all formulasas assumed by all formulas
Therefore, it is always necessary toTherefore, it is always necessary to
useuse correction factorscorrection factors for specificfor specific
geological conditions.geological conditions.
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K d = ?
BURDENcorrected
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BURDEN DISTANCEBURDEN DISTANCE
The corrected burden distance can beThe corrected burden distance can becomputed from the following equation:computed from the following equation:
WhereWhere
K K d d = correction factor for rock deposition= correction factor for rock deposition
K K ss = correction factor for rock structure= correction factor for rock structure
Table 2 gives burden distance correction factors forTable 2 gives burden distance correction factors forrock deposition and rock structurerock deposition and rock structure
sd K K B B ××=corrected (3)
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BURDEN DISTANCEBURDEN DISTANCE
CORRECTION FACTORSCORRECTION FACTORS
Table 2. Density by Nominal Rock Classifications (Table 13-2, Text)
Rock Depostion KdBedding steeply dipping into cut 1.18
Bedding steeply dipping into face 0.95
Other cases of depostion 1.00
Rock Structure KsHeavily cracked, frequent weak joints, weakly
cemented layers
1.30
Thin, well-cemented layers with tight joints 1.10
Massive intact rock 0.95
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Example 2Example 2
A new quarry is being opened in a limestone A new quarry is being opened in a limestone
formation having horizontal bedding withformation having horizontal bedding with
numerous weak joints. From a borehole testnumerous weak joints. From a borehole test
drilling program it is believed that the limestonedrilling program it is believed that the limestone
is highly laminated with many weakly cementedis highly laminated with many weakly cemented
layers. Because of possible wet conditions, alayers. Because of possible wet conditions, a
cartridgedcartridged slurry (relative bulk density of 140)slurry (relative bulk density of 140)
will be used as explosive. The 6.5will be used as explosive. The 6.5--inin blastholesblastholes
will be loaded with 5will be loaded with 5--in diameter cartridges.in diameter cartridges.
What is the burden distance?What is the burden distance?
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Example 2 (continued)Example 2 (continued)
From Table 1 (Table 13From Table 1 (Table 13--1, Text):1, Text):
For limestone, the specific gravity is between 2.4 andFor limestone, the specific gravity is between 2.4 and
2.92.9
Kd Kd = 1 (horizontal bedding, see Table 2)= 1 (horizontal bedding, see Table 2)
KsKs = 1.3 (numerous weakly cemented layers, Table 2)= 1.3 (numerous weakly cemented layers, Table 2)
ft65.126.2
140)5(67.067.0
9.22
2.92.4 GravitySpecificAverage
33 ===
=+
=
r
ve
SG
St D B
ft4.16)3.1)(1(65.12corrected ==××= Ks Kd B B
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Example 2 (continued)Example 2 (continued)
Table 1. Density by Nominal Rock Classifications (Table 13-1, Text)Rock Classification Specific Gravity Density Broken (ton/cu yd)
Basalt 1.8 – 3.0 2.36 – 2.53
Dibase 2.6 – 3.0 2.19 – 2.53
Diorite 2.8 – 3.0 2.36 – 2.53
Dolomite 2.8 – 2.9 2.36 – 2.44
Gneiss 2.6 – 2.9 2.19 – 2.44
Granite 2.6 – 2.9 2.19 – 2.28
Gypsum 2.3 – 2.8 1.94 – 2.26
Hematite 4.5 – 5.3 3.79 – 4.47
Limestone 2.4 – 2.9 1.94 – 2.28
Marble 2.1 – 2.9 2.02 – 2.28
Quartzite 2.0 – 2.8 2.19 – 2.36
Sandstone 2.0 – 2.8 1.85 – 2.36
Shale 2.4 – 2.8 2.02 – 2.36
Slate 2.5 – 2.8 2.28 – 2.36Trap Rock 2.6 – 3.0 2.38 – 2.53
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STEMMINGSTEMMING
Definition:Definition:
Stemming is the adding of an inertStemming is the adding of an inert
material, such as drill cuttings, onmaterial, such as drill cuttings, on
top of the explosive in atop of the explosive in a blastholeblastholefor the purpose of confining thefor the purpose of confining the
energy of the explosiveenergy of the explosive
To function property the materialTo function property the material
used for stemming must lock intoused for stemming must lock into
the borehole.the borehole.
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STEMMINGSTEMMING
It is common practice to useIt is common practice to use drilldrill
cuttingscuttings as the stemming material.as the stemming material.
To function properly, the stemmingTo function properly, the stemming
material should have an averagematerial should have an averagediameterdiameter 0.05 times the diameter of the0.05 times the diameter of the
holehole and should be angular.and should be angular.
If the stemming distance is too great,If the stemming distance is too great,
there will be poor top breakage from thethere will be poor top breakage from the
explosion andexplosion and backbreakbackbreak will increase.will increase.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 58
STEMMINGSTEMMING
When the stemming distance isWhen the stemming distance isinadequate, the explosion will escapeinadequate, the explosion will escape
prematurely from the hole.prematurely from the hole.
Under normal conditions, properlyUnder normal conditions, properly
designed burden and explosive, anddesigned burden and explosive, and
good stemming material, a stemminggood stemming material, a stemming
distance,distance, T T , of 0.7 times the burden, of 0.7 times the burden
distance,distance, BB, will be satisfactory., will be satisfactory.T T = 0.7 x= 0.7 x BB (4)
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 59
SUBDRILLINGSUBDRILLING
A shot will normally not break to the very A shot will normally not break to the very
bottom of the blasthole. This can bebottom of the blasthole. This can be
understood by remembering thatunderstood by remembering that thethe
second mechanism of breakage issecond mechanism of breakage is
flexural rupture.flexural rupture.To achieve a specified grade, one willTo achieve a specified grade, one will
need to drill below the desired floorneed to drill below the desired floor
elevation. This portion of the blastholeelevation. This portion of the blasthole
below the desired final grade is termedbelow the desired final grade is termed
"subdrilling.""subdrilling."
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 60
SUBDRILLINGSUBDRILLING
TheThe subdrillingsubdrilling distance,distance, J J , required, requiredcan be approximated by the followingcan be approximated by the following
formula:formula:
J J = 0.3 x= 0.3 x BB
SubdrillingSubdrilling represents the depthrepresents the depth
required for explosive placementrequired for explosive placement, not, nota field drilling deptha field drilling depth
(5)
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 61
SUBDRILLINGSUBDRILLING
During the drilling operation thereDuring the drilling operation there
will be random drilling depthwill be random drilling depth
errors, holes will slough, anderrors, holes will slough, and
material will accidentally fall intomaterial will accidentally fall intosome holes. Therefore, forsome holes. Therefore, for
practical reasons drilling shouldpractical reasons drilling should
be to a depth slightly greater thanbe to a depth slightly greater than
that calculated.that calculated.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 62
BLASTHOLEBLASTHOLE SIZESIZE
The size (diameter) of the blasthole willThe size (diameter) of the blasthole will
affect blast considerations concerningaffect blast considerations concerning
fragmentation, air blast, flyrock, andfragmentation, air blast, flyrock, and
ground vibrationground vibration..
The economics of drilling is the secondThe economics of drilling is the second
consideration in determining blastholeconsideration in determining blasthole
size.size.
Larger holes are usually moreLarger holes are usually more
economical to drill but they introduceeconomical to drill but they introduce
possible blast problemspossible blast problems..
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 63
BLASTHOLEBLASTHOLE SIZESIZE
Once again, the second mechanismOnce again, the second mechanism
of rupture and the stiffness ratio (SR)of rupture and the stiffness ratio (SR)
need to be considered.need to be considered.
TheThe stiffness ratio (SR)stiffness ratio (SR) for blastingfor blastingpurposes is the bench height (purposes is the bench height (LL))
divided by the burden distance (divided by the burden distance (BB))..
B
LSR = (6)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 66
In the case of
deep cuts it may
be possible to
adjust the bench
height with
stepped cuts.
STIFFNESS RATIOSTIFFNESS RATIO
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 67
The bench
height should
be matched to
the reach ofthe excavation
equipment
(optimum
height of cut).
STIFFNESS RATIOSTIFFNESS RATIO
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 70
BLASTHOLEBLASTHOLE SIZESIZE
One of the parameters in bothOne of the parameters in both EqsEqs. 1. 1and 2 was the diameter of the explosive,and 2 was the diameter of the explosive,
DDee. The diameter of the explosive is. The diameter of the explosive is
limited by the diameter of thelimited by the diameter of the blastholeblasthole
If it is desirable to drill largerIf it is desirable to drill larger blastholesblastholes
for economic reasons (usually cheaper),for economic reasons (usually cheaper),the burden distance will be affectedthe burden distance will be affected
e
r
e DSG
SG B
+= 5.1
2367.0
r
ve
SG
St D B =
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 71
Explosive diameter and bore hole
diameter may not be the same.
LINER or FILLER
EXPLOSIVE
BORE HOLE
BLASTHOLEBLASTHOLE SIZESIZE
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 72
Example 3Example 3
A contractor plans to use dynamite that has A contractor plans to use dynamite that has
specific gravity of 1.3 to open an excavation inspecific gravity of 1.3 to open an excavation ingranite rock. The drilling equipment availablegranite rock. The drilling equipment availablewill drill a 5will drill a 5--inin blastonesblastones. Dynamite comes. Dynamite comespackaged in 2.75packaged in 2.75--in and 4.5in and 4.5--diameter sticks. Ifdiameter sticks. Ifthe specifications call for a 13the specifications call for a 13--ft bench heightft bench heightand the extent of the excavation perpendicularand the extent of the excavation perpendicularto the face is 100 ft,how many rows ofto the face is 100 ft,how many rows ofblastholesblastholes will be required for both the 2.75 andwill be required for both the 2.75 and4.54.5--diameter packages? Which package ofdiameter packages? Which package of
dynamite will result in lesser blasting problems?dynamite will result in lesser blasting problems?
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 73
Example 3 (cont’d)Example 3 (cont’d)
For the 2.75For the 2.75--inin diadia. package:. package:
For the 4.5For the 4.5--in.in. diadia, package:, package:
rows1693.1516.7100requiredrowsof No.
ft7.675.2(5.18.2
)3.1(25.1
2
8.22
2.92.6Graniteof GravitySpecific
1
≈=+=
=
+=
+=
=+
=
e
r
e DSG
SG B
rows1017.10110.9
100 requiredrowsof No.
ft9.105.4(5.18.2
)3.1(25.1
22
≈=+=
=
+=
+= e
r
e DSG
SG B
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 74
Example 3 (cont’d)Example 3 (cont’d)
For the 2.75For the 2.75--in.in. diadia. explosive package:. explosive package:
For the 4.5For the 4.5--in.in. diadia. explosive package:. explosive package:
Comparing the results of the stiffness ratios using Table 3Comparing the results of the stiffness ratios using Table 3
(Table 13(Table 13--3, Text), the 2.53, Text), the 2.5--in. diameter explosive packagein. diameter explosive packagehas lesser blasting problemhas lesser blasting problem
94.17.6
13
1
1 === B
LSR
19.19.10
13
2
2 === B
LSR
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 75
Example 3 (cont’d)Example 3 (cont’d)
Stiffness Ratio (RS) 1 2 3 > 4*
Fragmentation Poor Fair Good Excellent
Air Blast Severe Fair Good Excellent
Flyrock Severe Fair Good Excellent
Ground Vibration Severe Fair Good Excellent*Stiffness Ratios above 4 yield no increase in benefit
Table 3. Stiffness Ratio’s Effect on Blasting Factors (Table 13-3, Text)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 76
Example 4Example 4
Suppose that the rock blasting in Example 3 should beSuppose that the rock blasting in Example 3 should be
accomplished with a minimum stiffness ratio of 3, what willaccomplished with a minimum stiffness ratio of 3, what willbe the ideal explosive diameter?be the ideal explosive diameter?
33.43
13 ===⇒=
SR
L B
B
LSR
OK 306.325.4
13 25.4)75.1(5.1
8.2
)3.1(2
:CKECK
diameter -3/41or1.75diameterexplosiveideal
in783.1
ft33.45.18.2
)3.1(25.1
2
>===⇒=
+=
=∴
=∴
=
+=
+=
B
LSR B
D
D DSG
SG B
e
ee
r
e
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 77
SPACINGSPACING
Proper spacing of blastholes isProper spacing of blastholes is
controlled by the initiation timing and thecontrolled by the initiation timing and the
stiffness ratiostiffness ratio..
When holes are spaced too close andWhen holes are spaced too close and
fired instantaneously, venting of thefired instantaneously, venting of theenergy will occur with resultingenergy will occur with resulting air blastair blast
and flyrockand flyrock..
When the spacing is extended, there is aWhen the spacing is extended, there is a
limit beyond which fragmentation willlimit beyond which fragmentation will
become harsh.become harsh.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 78
SPACINGSPACING
Before beginning a spacingBefore beginning a spacinganalysis, two questions must beanalysis, two questions must be
answered concerning the shot:answered concerning the shot:
1. Will the charges be fired
instantaneously or will delays be
used?
2. Is the stiffness ratio greater than 4?
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 79
SPACINGSPACING
Instantaneous initiation Instantaneous initiation:: SR SR
greater than 1 but less than 4greater than 1 but less than 4
Instantaneous initiation Instantaneous initiation:: SR SRequal to or greater than 4equal to or greater than 4
Text p. 388, equations (13Text p. 388, equations (13--6 and 136 and 13--7)7)
Spacing is controlled by initiation
timing and stiffness ratio.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 80
SPACINGSPACING
Delayed initiation Delayed initiation:: SR greaterSR greater
than 1 but less than 4than 1 but less than 4
Delayed initiation Delayed initiation:: SR equal toSR equal to
or greater than 4or greater than 4
Text p. 388, equations (13Text p. 388, equations (13--8 and 138 and 13--9)9)
Spacing is controlled by initiationtiming and stiffness ratio.
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 81
SPACINGSPACING
An SR of less than 4 is considered a
low bench and a high bench is a SR
value of 4 or greater. This means that
there are four cases to be considered:
1. Instantaneous initiation. with the SR
greater than I but less than 4.
where S = spacing
L = bench height
3
2 B LS
+= (7)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 82
SPACINGSPACING
2. Instantaneous initiation , with the SR
equal to or greater than 4.
3. Delayed initiation , with the SR
greater than I but less than 4.
BS 2= (8)
(9)8
7 B LS
+=
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 83
SPACINGSPACING
4. Delayed initiation, with the SR
equal to or greater than 4.
Note: The actual spacing utilized in the
field should be within 15% plus or
minus the calculated value.
BS 4.1= (9)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 84
SPACINGSPACING
Spacing in the field shouldbe within plus or minus 15%
of the calculated value.
Calculated spacing
-15% +15%
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 85
Example 5Example 5
It is proposed to load 4It is proposed to load 4--in diameterin diameterblasholesblasholes with bulkwith bulk ANFO ANFO. The. Thecontractor would like to use an 8 Xcontractor would like to use an 8 X
8 drill pattern. Assuming the8 drill pattern. Assuming theburden distance is correct, will theburden distance is correct, will the88--ft spacing be acceptable? Theft spacing be acceptable? Thebench height is 35 ft and each holebench height is 35 ft and each holeis to be fired on separate delay.is to be fired on separate delay.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 86
Example 5 (cont’d)Example 5 (cont’d)
Check the stiffness ratio,Check the stiffness ratio, LL//BB for high or low bench:for high or low bench:
Delay timing; therefore, useDelay timing; therefore, use EqEq. 9:. 9:
The spacing is not OK. As a minimum, the patternThe spacing is not OK. As a minimum, the pattern
should be:should be:
8 X 9.58 X 9.5
ft35 andft8 == L B
ft4.48
35==
B
L
ft12.9to5.9 :0.15(11.2)11.2Range
ft2.11)8(4.1
=±=
==
S
S
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 87
Example 6Example 6
A project in granite rock will have an average bench A project in granite rock will have an average bench
height of 20 ft. An explosive having a specific gravity ofheight of 20 ft. An explosive having a specific gravity of
1.2 has been proposed. The contractor’s equipment1.2 has been proposed. The contractor’s equipment
can easily drill 3can easily drill 3--in diameter holes. Assume thein diameter holes. Assume the
packaged diameter of the explosives will be 2.5 in.packaged diameter of the explosives will be 2.5 in.
Delay blasting techniques will be used. Develop a blastDelay blasting techniques will be used. Develop a blastdesign for the project.design for the project.
From Table 1 (Table 13-1 Text):
ft93.5)5.2(5.175.2
)2.1(25.1
2
75.22
2.92.6Graniteof GravitySpecific
=
+=
+=
=+
=
e
r
e DSG
SG B
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 88
Example 6 (cont’d)Example 6 (cont’d)
Table 1. Density by Nominal Rock Classifications (Table 13-1, Text)
Rock Classification Specific Gravity Density Broken (ton/cu yd)Basalt 1.8 – 3.0 2.36 – 2.53
Dibase 2.6 – 3.0 2.19 – 2.53
Diorite 2.8 – 3.0 2.36 – 2.53
Dolomite 2.8 – 2.9 2.36 – 2.44
Gneiss 2.6 – 2.9 2.19 – 2.44
Granite 2.6 – 2.9 2.19 – 2.28
Gypsum 2.3 – 2.8 1.94 – 2.26
Hematite 4.5 – 5.3 3.79 – 4.47
Limestone 2.4 – 2.9 1.94 – 2.28
Marble 2.1 – 2.9 2.02 – 2.28
Quartzite 2.0 – 2.8 2.19 – 2.36
Sandstone 2.0 – 2.8 1.85 – 2.36
Shale 2.4 – 2.8 2.02 – 2.36
Slate 2.5 – 2.8 2.28 – 2.36
Trap Rock 2.6 – 3.0 2.38 – 2.53
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 89
Example 6 (cont’d)Example 6 (cont’d)
Hence, use 6 in for the burden distance B.
Use 4 ft for the stemming depth, T.
Use 2 ft for subdrilling depth, J
As a first trial, use a 6-ft burden X 8-ft spacing pattern
ft8.1)6(3.03.0)(gsubdrillinThe ==×= B J
ft2.4)6(7.07.0)(depthstemmingThe
3)Tableto(accordinggood3.36
20
==×=
⇒===
BT
B
LSF
ft75.78
)6)(7(20
8
7 initiationdelayedand 41 =
+=
+=⇒<<
B LS SR
ft8.9to6.6 :0.15(7.75)7.75Range =±= S
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 90
Example 6 (cont’d)Example 6 (cont’d)
Stiffness Ratio (RS) 1 2 3 > 4*
Fragmentation Poor Fair Good Excellent
Air Blast Severe Fair Good Excellent
Flyrock Severe Fair Good Excellent
Ground Vibration Severe Fair Good Excellent*Stiffness Ratios above 4 yield no increase in benefit
Table 3. Stiffness Ratio’s Effect on Blasting Factors (Table 13-3, Text)
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 91
POWDER COLUMN ANDPOWDER COLUMN AND
POWDER FACTOR POWDER FACTOR
The amount of explosive required toThe amount of explosive required to
fracture a cubic yard of rock is afracture a cubic yard of rock is a
measure of economy of blast design.measure of economy of blast design.
Table 5 (Table 13Table 5 (Table 13--4, Text) is a4, Text) is a
loading density chart which allowsloading density chart which allows
the engineer to easily calculate thethe engineer to easily calculate the
weight of explosive required for aweight of explosive required for a
blastholeblasthole..
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 94
POWDER COLUMN ANDPOWDER COLUMN AND
POWDER FACTOR POWDER FACTOR
Definition:Definition:
“The powder column length is the total
hole length less stemming” that is
T J L −+= LengthPowder (10)
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 95
POWDER COLUMN ANDPOWDER COLUMN AND
POWDER FACTOR POWDER FACTOR
Definition:Definition:
“The powder factor is the ratio of the total
weight (lb)of explosive in powder column
length to the total volume (cu yd) of rock
fractured by one blasthole under the pattern
area to a depth of bench depth equal L” that
is
yd)(cuAreaPatternunderVolumeTotal
LengthColumnPowderof (lb)WeightTotal FactorPowder = (11)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 98
POWDER COLUMN ANDPOWDER COLUMN AND
POWDER FACTOR POWDER FACTOR
A stick dynamite ( A stick dynamite (GGss = 1.3) will require a= 1.3) will require aminimum of 8 in (0.667 ft). Therefore, there willminimum of 8 in (0.667 ft). Therefore, there will
be 208 in (17.33 ft) of ANFO and 8 in (0.67 ft) ofbe 208 in (17.33 ft) of ANFO and 8 in (0.67 ft) of
dynamitedynamite
The weight of explosives based on a 2.5The weight of explosives based on a 2.5--inin
explosive diameter will be:explosive diameter will be:
1.70 lb/ft X 17.33 ft = 29.46 lb
2.77 lb/ft X 0.67 ft = 1.85 lb
31.31 lb
The total per hole is 31.31 lb for 18 ft of powder column
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf
Slide No. 99
MATERIAL HANDLINGMATERIAL HANDLING
CONSIDERATIONSCONSIDERATIONSThe economics of handling the fracturedThe economics of handling the fractured
rock is a factor which should berock is a factor which should be
considered in blast design.considered in blast design.
Although it is critical to achieve good Although it is critical to achieve goodbreakage, the blast pattern will affectbreakage, the blast pattern will affect
such considerations as the type ofsuch considerations as the type of
equipment and the bucket fill factor.equipment and the bucket fill factor.
The appropriate piling of the blasted rockThe appropriate piling of the blasted rock
by the shot is dependent on the blastby the shot is dependent on the blast
design.design.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 100
MATERIAL HANDLINGMATERIAL HANDLING
CONSIDERATIONSCONSIDERATIONS
To utilize the blast to accomplish goodTo utilize the blast to accomplish goodbreakage and appropriate piling, one shouldbreakage and appropriate piling, one should
apply the following principles:apply the following principles:
1.Rock movement will be parallel to the burden
dimension.
2.Instantaneous initiation along a row causes more
displacement than delayed initiation.
3.Shots delayed row- by- row scatter the rock more
than shots fired in a V pattern.4.Shots designed in a V- pattern firing sequence
give maximum piling close to the face.
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 101
MATERIAL HANDLINGMATERIAL HANDLING
CONSIDERATIONSCONSIDERATIONS
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 102
PRESPLITTINGPRESPLITTING ROCK ROCK
PresplittingPresplitting Rock is a technique ofRock is a technique ofdrilling and blasting which breaks rockdrilling and blasting which breaks rockalong a relatively smooth surface (seealong a relatively smooth surface (seenext figure).next figure).
The holes usually are 2.5 to 3 in. inThe holes usually are 2.5 to 3 in. indiameter and are drilled along thediameter and are drilled along thedesired surface atdesired surface at spacingsspacings varyingvaryingfrom 18 to 36 in depending on thefrom 18 to 36 in depending on the
characteristic of the rock.characteristic of the rock.
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 103
PRESPLITTINGPRESPLITTING
Presplitting breaks rock alonga relatively smooth surface.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 104
PRESPLITTINGPRESPLITTING ROCK ROCK
The holes are loaded with one orThe holes are loaded with one ortwo sticks of dynamite at thetwo sticks of dynamite at the
bottoms, with smaller charges,bottoms, with smaller charges,
such as 1.25 x 4such as 1.25 x 4-- in. sticks spacedin. sticks spaced
at 12at 12--in intervals to the top of thein intervals to the top of the
portion of the holes to be loaded.portion of the holes to be loaded.
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 105
PRESPLITTINGPRESPLITTING ROCK ROCK
It is important that the charges be less thanIt is important that the charges be less than
half thehalf the blastholeblasthole diameter and they should notdiameter and they should not
touch the walls of the holestouch the walls of the holes
The appropriate load of explosive per foot ofThe appropriate load of explosive per foot of
presplitpresplit blastholeblasthole is given byis given by
where d ec = explosive load, lb per ft
Dh = diameter of blasthole, in
28
2
hec
Dd = (12)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 106
PRESPLITTINGPRESPLITTING ROCK ROCK
When the formula given byWhen the formula given by EqEq. 12 is used to. 12 is used to
arrive at an explosive loading, the spacingarrive at an explosive loading, the spacingbetweenbetween blastholesblastholes can be determined by thecan be determined by the
following equation:following equation:
where S p = presplit blasthole spacing, in
PresplitPresplit blastholesblastholes are not extended beloware not extended below
grade. In the bottom of the hole agrade. In the bottom of the hole a
concentrated charge of 2 to 3 timesconcentrated charge of 2 to 3 times d d ec ec shouldshouldbe placed instead ofbe placed instead of subdrillingsubdrilling
h p DS 10= (13)
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 107
Example 8Example 8
By contract specification the walls of a highwayBy contract specification the walls of a highway
excavation through rock must beexcavation through rock must be presplitpresplit. The. The
contractor will be using drilling equipmentcontractor will be using drilling equipment
capable of drilling a 3capable of drilling a 3--in hole. What explosivein hole. What explosive
load and hole spacing should he try for the firstload and hole spacing should he try for the first
presplitpresplit shot on the project?shot on the project?
lb0.960.323 beshouldload bottomThe
in30)3(1010
ft
lb32.0
28
)3(
28
22
=×
===
===
h p
hec
DS
Dd
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 108
SAFETY CONSIDERATIONSSAFETY CONSIDERATIONS
An accident involving explosives may An accident involving explosives may
easily kill or cause serious injury.easily kill or cause serious injury.
TheThe prevention of such accidentsprevention of such accidents
depends on careful planning anddepends on careful planning and
faithful observation of proper blastingfaithful observation of proper blasting
practices.practices.
There are federal and state regulationsThere are federal and state regulations
concerning the transportation andconcerning the transportation andhandling of explosives.handling of explosives.
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 109
SAFETY CONSIDERATIONSSAFETY CONSIDERATIONS
Safety information on specific productsSafety information on specific products
is provided by the manufacturer.is provided by the manufacturer.
In addition to regulations and productIn addition to regulations and product
information, there are recommendedinformation, there are recommended
practices, such as the evacuation of thepractices, such as the evacuation of the
blast area during the approach of anblast area during the approach of an
electrical storm whether electric orelectrical storm whether electric or
nonelectricnonelectric initiation systems are used.initiation systems are used.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 110
SAFETY CONSIDERATIONSSAFETY CONSIDERATIONS
A good source for material on recommended A good source for material on recommended
blasting safety practices is the Institute ofblasting safety practices is the Institute ofMakers of Explosives in New York City.Makers of Explosives in New York City.
Misfire:Misfire: In shooting charges of explosives,In shooting charges of explosives,
one or more charges may fail to explode.one or more charges may fail to explode.
This is referred to as a “This is referred to as a “misfiremisfire..””
It is necessary to dispose of this explosiveIt is necessary to dispose of this explosive
before excavating the loosened rockbefore excavating the loosened rock
The most satisfactory method is to shoot it ifThe most satisfactory method is to shoot it if
possible.possible.
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 111
FACTORS AFFECTINGFACTORS AFFECTING
VIBRATIONVIBRATION
Some of the critical factors that should be
considered are:1. Burden 10. Rock Type
2. Spacing 11. Rock Physical Properties3. Subdrilling 12. Geological Features
4. Stemming Depth 13. Number of Holes in a Row
5. Type of Stemming 14. Number of Rows
6. Bench Height 15. Row-to-Row Delays
7. Number of Decks 16. Initiator Precision
8. Charge Geometry 17. Face Angle to Structure
9. Powder Column Length 18. Explosive Energy
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 112
Throw rock
SPACING donSPACING don’’t forgett forget ----SAFETYSAFETY
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 113
FACTORS AFFECTINGFACTORS AFFECTING
VIBRATIONVIBRATIONThe U.S. Bureau of Mines has proposed aThe U.S. Bureau of Mines has proposed a
formula to evaluate vibration and as a way toformula to evaluate vibration and as a way to
control blasting operation as follows:control blasting operation as follows:
wherewhere DDss = scaled distance (= scaled distance (nondimensionalnondimensional factor)factor)
d d = distance from shot to structure, ft= distance from shot to structure, ft
W W = maximum charge weight per delay, lb= maximum charge weight per delay, lb
A scale value of 50 or greater indicates that a A scale value of 50 or greater indicates that a
shot isshot is safesafe with respect to vibrationwith respect to vibration
Some regulatory agencies require a value of 60Some regulatory agencies require a value of 60
or greater or greater
W
d D s = (14)
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 114
VIBRATIONVIBRATION
D
d
W s =
Check vibration by formula
13-12 and adjust amount of
explosive per delay if
necessary.
Text p. 397
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 115
VIBRATIONVIBRATION
How many
holes atone time.
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CHAPTER 13. BLASTING ROCK
ENCE 420 ©Assakkaf
Slide No. 118
CHAPTER 13. BLASTING ROCKENCE 420 ©Assakkaf Slide No. 119
Time to load and haul.
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