Micro Vickers hardness test
pg. 1
Micro Vickers hardness test
The Vickers hardness test was developed in 1924 by Smith and Sandland. The test evaluates
hardness in a manner similar to Brinell taking the ratio between the load applied and the surface
area of the resulting impression.
It was decided that the indenter shape should be one based on the following
To be capable of producing geometrically similar impressions, irrespective of size.
The resulting impression should have well defined points of measurement.
The indenter should have high resistance to self-deformation.
The Vickers hardness test method consists of indenting the test material with a diamond
indenter, in the form of a right pyramid with a square base and an angle of 136 degrees between
opposite faces subjected to a load of 1 to 100 kgf. The full load is normally applied for 10 to
15 seconds. The two diagonals of the indentation left in the surface of the material after removal
of the load are measured using a microscope and their average calculated. The area of the
sloping surface of the indentation is calculated. The Vickers hardness is the quotient obtained
by dividing the kgf load by the square mm area of indentation.
The corresponding units of HV are then kilograms-force per square millimetre (kgf/mm²). To
calculate Vickers hardness number using SI units one needs to convert the force applied from
kilogram-force to newtons by multiplying by 9.806 65 (standard gravity) and convert mm to
m. To do the calculation directly, the following equation can be used
HV = 𝐹
𝐴
1.8544𝐹
𝑑2
Where
F = applied load in gf
D = average of dia n mm
In micro Vickers hardness test a load of 1gf – 1000gf is applied.
Indenter
In this test diamond cone is used as indenter. As diamond has sharp edge so the dia of indenter
is easy to find due to sharp edge. Angle between the opposite faces of the indenter is 136o, and
use full angle is 120o.
Micro Vickers hardness test
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Figure 1 indenter and impression
Micro Vickers Test Method
All Vickers ranges use a 136° pyramidal diamond indenter that forms a square indent.
The indenter is pressed into the sample by an accurately controlled test force.
The force is maintained for a specific dwell time, normally 10 – 15 seconds.
After the dwell time is complete, the indenter is removed leaving an indent in the sample
that appears square shaped on the surface.
The size of the indent is determined optically by measuring the two diagonals of the
square indent.
The Vickers hardness number is a function of the test force divided by the surface area
of the indent. The average of the two diagonals is used in the following formula to
calculate the Vickers hardness
Calculation
Applied load = 1.961 N
Dwell time = 10 sec
First diagonal = d1= 48.78 µm
Second diagonal = d2=48.78 µm
Average = d = 48.78 µm
HV = 1528.26 N/mm2
Advantages
The major advantages of the Vickers test method are
Simple conducting of the test
Micro Vickers hardness test
pg. 3
Can be used for an extremely broad hardness range
Independent of the hardness value of the test load in the macro range
Suitable for testing small parts, thin sheet material and layers
Can be used to test structural constituents
Determination of case hardening depth possible with the corresponding equipment
Disadvantages
The major disadvantages of the Vickers test method are
More time required for test surface preparation and the exact measurement of the test
impression
Diamond indenter susceptible to damage
Increasing susceptibility to shocks with decreasing test load
Shape deviation of indenter and test surface preparation influence the hardness result
with small test impressions
Micro Vickers hardness test
pg. 4
References:
http://www.instron.us/wa/applications/test_types/hardness/vickers.aspx?ref=https://w
ww.google.com.pk/
http://www.instron.us/wa/applications/test_types/hardness/vickers.aspx?ref=https://w
ww.google.com.pk/
ASM metals handbook volume 8 mechanical testing and evaluation