Numerical simulation the stress uniformity in split Hopkinson pressure bar testing

被引:0
作者
Jin, Hongbin [1 ]
机构
[1] Shanghai Customs Coll, Dept Econ & Management, Shanghai 201204, Peoples R China
来源
ADVANCES IN CHEMICAL, MATERIAL AND METALLURGICAL ENGINEERING, PTS 1-5 | 2013年 / 634-638卷
关键词
Numerical simulation; stress uniformity; split Hopkinson pressure bar; CSPM; HIGH-STRAIN-RATE; SPECIMENS; BEHAVIOR; SYSTEM; RATES;
D O I
10.4028/www.scientific.net/AMR.634-638.2861
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
The assumption of uniform stress in a test specimen is fundamental to SHPB test technique. In the present paper, a numerical simulation of wave propagation in SHPB is performed to validate the assumption. A one-dimensional model based on CSPM is firstly developed. Then the wave propagations in SHPB with various area ratios of bar/specimen are simulated. The results show that the condition of stress uniformity is not satisfied, especially at the beginning of wave propagation. For the large area specimen, the stress tends to be uniform. While for the small area specimen, the non-uniformity of stress is more apparent.
引用
收藏
页码:2861 / 2864
页数:4
相关论文
共 50 条
[31]   Experimental and numerical studies on pulse shaping techniques used in split Hopkinson pressure bar for testing concrete material [J].
Ganorkar, Kavita P. ;
Goel, Manmohan Dass ;
Chakraborty, Tanusree .
MAGAZINE OF CONCRETE RESEARCH, 2023, 75 (17) :874-887
[32]   Pulse shaping techniques for testing brittle materials with a split Hopkinson pressure bar [J].
Frew, DJ ;
Forrestal, MJ ;
Chen, W .
EXPERIMENTAL MECHANICS, 2002, 42 (01) :93-106
[33]   Influence of interfacial friction and specimen configuration in Split Hopkinson Pressure Bar system [J].
Zhong, W. Z. ;
Rusinek, A. ;
Jankowiak, T. ;
Abed, F. ;
Bernier, R. ;
Sutter, G. .
TRIBOLOGY INTERNATIONAL, 2015, 90 :1-14
[34]   Design of a split Hopkinson pressure bar with partial lateral confinement [J].
Barr, Andrew D. ;
Clarke, Sam D. ;
Rigby, Sam E. ;
Tyas, Andrew ;
Warren, James A. .
MEASUREMENT SCIENCE AND TECHNOLOGY, 2016, 27 (12)
[35]   Numerical investigation of lateral inertia effect in dynamic impact testing of UHPC using a Split-Hopkinson pressure bar [J].
Ren, Liang ;
Yu, Xianming ;
He, Yu ;
Wang, Kai ;
Yao, Hongliang .
CONSTRUCTION AND BUILDING MATERIALS, 2020, 246
[36]   Incident Strain Pulse Sensitivity in Split Hopkinson Pressure Bar Testing Setup for Variable Conditions: A Numerical and Statistical Approach [J].
Shubham ;
Prusty, Rajesh Kumar ;
Ray, Bankim Chandra .
JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE, 2024, 33 (01) :463-474
[37]   Design of Inserts for Split-Hopkinson Pressure Bar Testing of Low Strain-to-Failure Materials [J].
Sunny, G. ;
Yuan, F. ;
Prakash, V. ;
Lewandowski, J. .
EXPERIMENTAL MECHANICS, 2009, 49 (04) :479-490
[38]   The use of the split Hopkinson pressure bar techniques in high strain rate materials testing [J].
AlMousawi, MM ;
Reid, SR ;
Deans, WF .
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C-JOURNAL OF MECHANICAL ENGINEERING SCIENCE, 1997, 211 (04) :273-292
[39]   Experimental and numerical study on choosing proper pulse shapers for testing concrete specimens by split Hopkinson pressure bar apparatus [J].
Shemirani, Alireza Bagher ;
Naghdabadi, R. ;
Ashrafi, M. J. .
CONSTRUCTION AND BUILDING MATERIALS, 2016, 125 :326-336
[40]   Impact Testing of Polymer-filled Auxetics Using Split Hopkinson Pressure Bar [J].
Fila, Tomas ;
Zlamal, Petr ;
Jirousek, Ondrej ;
Falta, Jan ;
Koudelka, Petr ;
Kytyr, Daniel ;
Doktor, Tomas ;
Valach, Jaroslav .
ADVANCED ENGINEERING MATERIALS, 2017, 19 (10)
12345