Experimental Study on Split Hopkinson Pressure Bar Pulse-Shaping Techniques for Concrete

被引:25
|
作者
Chen, Xudong [1 ]
Ge, Limei [1 ]
Zhou, Jikai [1 ]
Wu, Shengxing [1 ]
机构
[1] Hohai Univ, Coll Civil & Transportat Engn, Nanjing 210098, Jiangsu, Peoples R China
来源
JOURNAL OF MATERIALS IN CIVIL ENGINEERING | 2016年 / 28卷 / 05期
关键词
Split Hopkinson pressure bar; Strain rate; Concrete; Testing; HIGH-STRAIN RATE; COMPRESSIVE STRENGTH ENHANCEMENT; FIBER-REINFORCED CONCRETE; DYNAMIC STRENGTH; APPARATUS; CERAMICS; FAILURE; MORTAR; TESTS;
D O I
10.1061/(ASCE)MT.1943-5533.0001494
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
The dynamic compressive behavior of concrete is investigated using a phi 74-mm variable cross section straight taper split Hopkinson pressure bar (SHPB) apparatus in this study. In order to reduce and eliminate the waveform dispersion effect, two pulse shaping techniques are adopted to improve the incident wave shape. The two techniques include changing the striker (length, shape) and copper pulse shapers (diameter, thickness, shape). Experimental results show that the pulse shaping effect with the small diameter of copper shaper is better than that of the tapered striker and annular pulse shaper, all of which could reach dynamic stress equilibrium, and reduce the high-frequency oscillation, and achieve constant strain-rate deformation approximately.
引用
收藏
页数:10
相关论文
共 50 条
  • [1] Loading and unloading split hopkinson pressure bar pulse-shaping techniques for dynamic hysteretic loops
    B. Song
    W. Chen
    Experimental Mechanics, 2004, 44 (6) : 622 - 627
  • [2] Loading and unloading split Hopkinson pressure bar pulse-shaping techniques for dynamic hysteretic loops
    Song, B
    Chen, W
    EXPERIMENTAL MECHANICS, 2004, 44 (06) : 622 - 627
  • [3] Experimental and numerical studies on pulse shaping techniques used in split Hopkinson pressure bar for testing concrete material
    Ganorkar, Kavita P.
    Goel, Manmohan Dass
    Chakraborty, Tanusree
    MAGAZINE OF CONCRETE RESEARCH, 2023, 75 (17) : 874 - 887
  • [4] Appraisal of Pulse-Shaping Technique in Split Hopkinson Pressure Bar Tests for Brittle Materials
    Lu, Y. B.
    Li, Q. M.
    INTERNATIONAL JOURNAL OF PROTECTIVE STRUCTURES, 2010, 1 (03) : 363 - 390
  • [5] Pulse shaping techniques for testing brittle materials with a split hopkinson pressure bar
    D. J. Frew
    M. J. Forrestal
    W. Chen
    Experimental Mechanics, 2002, 42 : 93 - 106
  • [6] Pulse shaping techniques for testing brittle materials with a split Hopkinson pressure bar
    Frew, DJ
    Forrestal, MJ
    Chen, W
    EXPERIMENTAL MECHANICS, 2002, 42 (01) : 93 - 106
  • [7] An Effective Pulse-Shaping Technique for Testing Stainless Steel Alloys in a Split-Hopkinson Pressure Bar
    Ameri, A. A. H.
    Brown, A. D.
    Ashraf, M.
    Hazell, P. J.
    Quadir, Md. Z.
    Escobedo-Diaz, J. P.
    JOURNAL OF DYNAMIC BEHAVIOR OF MATERIALS, 2019, 5 (01) : 39 - 50
  • [8] An Effective Pulse-Shaping Technique for Testing Stainless Steel Alloys in a Split-Hopkinson Pressure Bar
    A. A. H. Ameri
    A. D. Brown
    M. Ashraf
    P. J. Hazell
    Md. Z. Quadir
    J. P. Escobedo-Diaz
    Journal of Dynamic Behavior of Materials, 2019, 5 : 39 - 50
  • [9] Pulse shaping techniques for large-diameter split Hopkinson pressure bar test
    Li, Wei-Min
    Xu, Jin-Yu
    Binggong Xuebao/Acta Armamentarii, 2009, 30 (03): : 350 - 355
  • [10] Pulse shaping techniques for testing elastic-plastic materials with a split Hopkinson pressure bar
    D. J. Frew
    M. J. Forrestal
    W. Chen
    Experimental Mechanics, 2005, 45 (2) : 186 - 195
12345