Dynamic tension of aluminum alloy AMg-6 in a facility of Split Hopkinson Bar

被引:1
|
作者
Pushkov, Victor [1 ,2 ]
Yurlov, Alexey [1 ]
Leonov, Valery [1 ]
Tsibikov, Andrew [1 ]
Naydanova, Tatiana [1 ]
机构
[1] Russian Fed Nucl Ctr VNIIEF, Sarov 607190, Nizhniy Novgoro, Russia
[2] Sarov Phys Tech Inst NIYaU MEPhI, Sarov 607186, Nizhniy Novgoro, Russia
来源
12TH INTERNATIONAL CONFERENCE ON THE MECHANICAL AND PHYSICAL BEHAVIOUR OF MATERIALS UNDER DYNAMIC LOADING (DYMAT 2018) | 2018年 / 183卷
关键词
D O I
10.1051/epjconf/201818302036
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The results are presented to create a facility for studying dynamic tension of structural materials by using the Split Hopkinson Bar Method (SHB method). The explosive method of loading and a cylindrical corner-rounding sample are used in a facility. A sample has threads at both end faces and it fastened in rods by the help of threads. The results of test experiments are presented in the facility for studying dynamic tension of the aluminum alloy AMg-6 at strain rates of 1160-1450 s(-1). The diagrams of dynamic tension were built. The data on peculiarities of deformation AMg-6 were gained.
引用
收藏
页数:3
相关论文
共 50 条
  • [31] Some Fundamental Issues in Dynamic Compression and Tension Tests of Rocks Using Split Hopkinson Pressure Bar
    Dai, Feng
    Huang, Sheng
    Xia, Kaiwen
    Tan, Zhuoying
    ROCK MECHANICS AND ROCK ENGINEERING, 2010, 43 (06) : 657 - 666
  • [32] Some Fundamental Issues in Dynamic Compression and Tension Tests of Rocks Using Split Hopkinson Pressure Bar
    Feng Dai
    Sheng Huang
    Kaiwen Xia
    Zhuoying Tan
    Rock Mechanics and Rock Engineering, 2010, 43 : 657 - 666
  • [33] Dynamic Deformation of Aluminum Alloy AMg–6 at Normal and Higher Temperatures
    B. L. Glushak
    O. N. Ignatova
    V. A. Pushkov
    S. A. Novikov
    A. S. Girin
    V. A. Sinitsyn
    Journal of Applied Mechanics and Technical Physics, 2000, 41 (6) : 1083 - 1086
  • [34] A review on split Hopkinson bar experiments on the dynamic characterisation of concrete
    Khosravani, Mohammad Reza
    Weinberg, Kerstin
    CONSTRUCTION AND BUILDING MATERIALS, 2018, 190 : 1264 - 1283
  • [35] Dynamic testing of composite laminates with a tensile split Hopkinson bar
    Eskandari, H
    Nemes, JA
    JOURNAL OF COMPOSITE MATERIALS, 2000, 34 (04) : 260 - 273
  • [36] DYNAMIC UNIAXIAL TENSION AND COMPRESSION CURVES OF COPPER AND ALLOY AMG6
    BOLSHAKOV, AP
    NOVIKOV, SA
    SINITSYN, VA
    STRENGTH OF MATERIALS, 1979, 11 (10) : 1159 - 1161
  • [37] A simplified design for a Split-Hopkinson Tension Bar with long pulse duration
    Ganzenmueller, G. C.
    Blaum, E.
    Mohrmann, D.
    Langhof, T.
    Plappert, D.
    Ledford, N.
    Paul, H.
    Hiermaier, S.
    DYMAT 23RD TECHNICAL MEETING - INTERNATIONAL CONFERENCE ON DYNAMIC FRACTURE OF DUCTILE MATERIALS, 2017, 197 : 109 - 118
  • [38] Compression, Tension and Shear Testing of Fibrous Composite with the Split Hopkinson Bar Technique
    Gilat, Amos
    Seidt, Jeremy D.
    12TH INTERNATIONAL CONFERENCE ON THE MECHANICAL AND PHYSICAL BEHAVIOUR OF MATERIALS UNDER DYNAMIC LOADING (DYMAT 2018), 2018, 183
  • [39] The Effect of Specimen Dimension on the Results of the Split-Hopkinson Tension Bar Testing
    Prabowo, Dini A.
    Kariem, Muhammad A.
    Gunawan, Leonardo
    PLASTICITY AND IMPACT MECHANICS, 2017, 173 : 608 - 614
  • [40] Dynamic Increase Factor of Concrete Subjected to Compression and Tension by using Split Hopkinson Pressure Bar Setup: Overview
    Khan, M. M.
    Iqbal, M. A.
    MECHANICS OF SOLIDS, 2023, 58 (06) : 2115 - 2131
12345