Split Hopkinson Pressure Bar (SHPB) has become a frequently used technique for measuring compressive stress-strain relationship of various material and its alloys under high strain rate. In this report, a finite element simulation of a Split Hopkinson Bar is build to analyse the effect of varying specimen diameter and striker bar‟s initial velocity on the behaviour of the material. ANSYS Workbench coupled with LS-DYNA solver is use to simulate and produce the stress strain results. Specimen made of Aluminium alloy AL6061-T6 with length 5mm and varying diameter of 5, 8 and 10mm are used in this project for simulation test. Striker bar‟s velocities of 6m/s, 12m/s 15m/s and 17m/s are varied in this project to obtain simulation results. ...
A specially-designed specimen is proposed to investigate the tensile response of metals at high stra...
Static mechanical properties such as strength and hardness are easily available in a variety of sour...
In this era, static mechanical properties such as hardness and strength can usually be found easily ...
A 13 mm split Hopkinson pressure bar (SHPB) apparatus was used to extract the high strain rate behav...
Split Hopkinson Pressure Bar (SHPB) has become a frequently used technique for measuring an uniaxial...
This paper investigated the compression behaviour of Al 6061-T6 alloys at various high strain rates ...
Split Hopkinson Pressure Bar (SHPB) has become a frequently used technique for measuring uniaxial co...
Low density and excellent machinability of Mg alloys make them good candidates for light-weight cons...
Static mechanical properties such as yield strength and hardness are readily available from many dif...
Results of experimental investigation and numerical modeling of high strain rate behavior of alumini...
All materials used in our daily activities undergo loadings of various forms such as dynamic and imp...
There is strong demand for materials such as aluminum alloys and magnesium alloys which have great m...
The Static compression test and the Split Hopkinson Pressure Bar test are the most commonly used met...
There are three types of Split Hopkinson Pressure Bar (SHPB) apparatus available in the strength of ...
Magnesium alloy is the lightest metal which is widely used as engineering materials. The static load...
A specially-designed specimen is proposed to investigate the tensile response of metals at high stra...
Static mechanical properties such as strength and hardness are easily available in a variety of sour...
In this era, static mechanical properties such as hardness and strength can usually be found easily ...
A 13 mm split Hopkinson pressure bar (SHPB) apparatus was used to extract the high strain rate behav...
Split Hopkinson Pressure Bar (SHPB) has become a frequently used technique for measuring an uniaxial...
This paper investigated the compression behaviour of Al 6061-T6 alloys at various high strain rates ...
Split Hopkinson Pressure Bar (SHPB) has become a frequently used technique for measuring uniaxial co...
Low density and excellent machinability of Mg alloys make them good candidates for light-weight cons...
Static mechanical properties such as yield strength and hardness are readily available from many dif...
Results of experimental investigation and numerical modeling of high strain rate behavior of alumini...
All materials used in our daily activities undergo loadings of various forms such as dynamic and imp...
There is strong demand for materials such as aluminum alloys and magnesium alloys which have great m...
The Static compression test and the Split Hopkinson Pressure Bar test are the most commonly used met...
There are three types of Split Hopkinson Pressure Bar (SHPB) apparatus available in the strength of ...
Magnesium alloy is the lightest metal which is widely used as engineering materials. The static load...
A specially-designed specimen is proposed to investigate the tensile response of metals at high stra...
Static mechanical properties such as strength and hardness are easily available in a variety of sour...
In this era, static mechanical properties such as hardness and strength can usually be found easily ...
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