JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE) ›› 2017, Vol. 47 ›› Issue (1): 68-75.doi: 10.6040/j.issn.1672-3961.0.2016.104

Previous Articles     Next Articles

Improvement method of compression test and the dynamic damage of concrete

LI Ming, ZHU Zhaoquan, LIU Lin*   

  1. College of Civil and Transportation Engineering, Hohai University, Nanjing 210098, Jiangsu, China
  • Received:2016-03-28 Online:2017-02-20 Published:2016-03-28

Abstract: In order to explore the incident waveform improvement method in concrete dynamic compression test thus further exploring the dynamic damage and the mechanical property of concrete under the impact loading, the experiment adopted the conventional large diameter split Hopkinson pressure bar(SHPB)to study the dynamic compression test of concrete. The dispersion effect of the incident pulse and the serious high frequency oscillation phenomenon causes large errors in the result of the experiment, but it is the key to ensure the validity of the test and the reliability of the test results to ensure the uniform distribution of stress and to maintain the constant strain rate loading before the test piece destroyed. This study used the brass shaper technology to improve the incident wave to reduce the experimental error and then by controlling variable, then used the method of the combination of theoretical formula and experimental, further researched on the influence of air pressure and impact times on the dynamic damage of concrete. It was concluded that the shaper made of small diameter solid copper thin could improve the accuracy. The damage degree of concrete was gradually augmented with the increase of the repeated impact times the dynamic elastic modulus was decreased, and the ability to resist impact was attenuated.

Key words: reshaper, dynamic mechanical property, damage degree, concrete, impact loading, SHPB

CLC Number: 

  • TU112.3
[1] BISCHOFF P H. Compressive behavior of concrete at high strain rates[J].Material and Structure, 1991, 144(24):425-450.
[2] 商霖,宁建国.强冲击载荷下混凝土动态本构关系[J].工程力学, 2005, 22(2):116-119. SHANG Lin, NING Jianguo. Dynamic constitutive relationship of concrete subjected to shock loading[J].Engineering Mechanics, 2005, 22(2):116-119.
[3] 商霖,宁建国,孙远翔.强冲击载荷作用下钢筋混凝土本构关系的研究[J].固体力学学报,2005, 26(2):175-181. SHANG Lin, NING Jianguo, SUN Yuanxiang. The constitutive relationship of reinforced concrete subjected to shock loading[J]. Acta Mechanics Solida Sinica, 2005, 26(2):175-181.
[4] 杨友山, 陈小伟.脉冲整形器对SHPB波形的影响[J].西南科技大学学报, 2013(1):36-42. YANG Youshan, CHEN Xiaowei. The effect of impulse shaper on the SHPB waves[J].Journal of Southwest University of Science and Technology, 2013(1):36-42.
[5] 帅晓蕾.冲击荷载作用下混凝土动力性能试验研究及有限元分析[D].长沙:湖南大学, 2013. SHUAI Xiaolei. Mechanical properties experimental study and finite element analysis of concrete under the impact load[D].Changsha: Hunan University, 2013.
[6] 宁建国,刘海峰,商霖.强冲击荷载作用下混凝土材料动态力学特性及本构模型[J].中国科学(物理学 力学 天文学), 2008(6):759-772. NING Jianguo, LIU Haifeng, SHANG Lin.The dynamic mechanical properties and constitutive model of concrete under strong impact loading[J].Scientia Sinica(Physica, Mechanica & Astronomica), 2008(6):759-772.
[7] 李志强, 陈维毅, 王志华.子弹长度对SHPB测试影响的研究[J].机械强度, 2010(6):942-945. LI Zhiqiang, CHEN Weiyi, WANG Zhihua. Study on the effect of striker bar length on the SHPB measurements[J]. Journal of Mechanical Strength, 2010(6):942-945.
[8] 戴凯, 刘彤, 王汝恒, 等.混凝土SHPB试验的波形整形材料研究[J].西南科技大学学报, 2010(1):24-29. DAI Kai, LIU Tong, WANG Ruheng, et al. Research on SHPB experiment of wave shaping material of concrete[J].Journal of Southwest University of Science and Technology, 2010(1):24-29.
[9] 常列珍.SHPB试验技术应注意的几类问题[J].科技情报开发与经济, 2007(4):169-171. CHANG Liezhen. Several kinds of problems that should be paid attention to in SHPB experimental technology[J]. Development of Scientific and Technical Information and Economic, 2007(4):169-171.
[10] 常列珍,张治民. SHPB试验技术及其发展[J]. 机械管理开发, 2006(5):29-31. CHANG Liezhen, ZHANG Zhimin. SHPB experimental technology and its development[J]. The Mechanical Management and Development, 2006(5):29-31.
[11] 李为民,许金余.大直径分离式霍普金森压杆试验中的波形整形技术研究[J]. 兵工学报, 2009(3):350-355. LI Weimin, XU Jinyu. Pulse shaping techniques for large-diameter split hopkinson pressure bar test[J].Acta Armamentarii, 2009(3):350-355.
[12] 李正. AZ31镁合金板条温热电磁成形试验及本构模型研究[D].武汉:武汉理工大学, 2009. LI Zheng. The forming experiments and constitutive model research of AZ31 magnesium alloy strip-shaped sheet under the HVF & warm forming conditions[D].Wuhan: Wuhan University of Technology, 2009.
[13] 冯明德, 彭艳菊, 刘永强, 等.SHPB试验技术研究[J].地球物理学进展, 2006(1):273-278. FENG Mingde, PENG Yanju, LIU Yongqiang, et al.Study on SHPB technique[J].Progress in Geophysics, 2006(1):273-278.
[14] 杨友山,陈小伟,刘娟娟. 紫铜脉冲整形器的设计研究[J]. 价值工程, 2013(2):29-32. YANG Youshan, CHEN Xiaowei, LIU Juanjuan.Research on copper pulse shaper design[J]. Value Engineering, 2013(2):29-32.
[15] 陶俊林.SHPB试验中几个问题的讨论[J].西南科技大学学报, 2009(3):27-35. TAO Junlin. Some questions need to discuss in the SHPB experiment[J].Journal of Southwest University of Science and Technology, 2009(3):27-35.
[16] 李为民, 许金余, 沈刘军, 等. Φ100 mm SHPB应力均匀及恒应变率加载试验技术研究[J].振动与冲击, 2008(2):129-132, 181-182. LI Weimin, XU Jinyu, SHEN Liujun, et al. Study on 100 mm-diameter SHPB techniques of dynamic stress equilibrium and nearly constant strain rate loading[J].Journal of Vibration and Shock, 2008(2):129-132, 181-182.
[17] 李为民,许金余,翟毅,等.冲击荷载作用下碳纤维混凝土的力学性能[J]. 土木工程学报, 2009(2):24-30. LI Weimin, XU Jinyu, ZHAI Yi, et al.Mechanical properties of carbon fiber reinforced concrete under impact loading[J]. China Engineering Journal, 2009(2):24-30.
[18] 杨润年.钢纤维混凝土静力损伤及疲劳损伤研究[D].广州:华南理工大学, 2013. YANG Runnian. Research on static and fatigue damage of steel fiber reinforced concrete[D]. Guangzhou: South China University of Technology, 2013.
[19] 高智珺, 崔新壮, 隋伟, 等.大型失控车辆与隧道衬砌的动态相互作用与损伤分析[J].山东大学学报(工学版), 2014, 44(5):49-57. GAO Zhijun, CUI Xinzhuang, SUI Wei, et al. Dynamic interaction and damage analysis of large runaway vehicle and tunnel lining[J].Journal of Shandong University(Engineering Science), 2014, 44(5):49-57.
[20] 李世民, 李晓军.几种常用混凝土动态损伤本构模型评述[J].混凝土, 2011(6):19-22. LI Shimin, LI Xiaojun. Review on current dynamic damage constitutive models of concrete[J].Concrete, 2011(6):19-22.
[21] 李天华.爆炸荷载下钢筋混凝土板的动态响应及损伤评估[D].西安:长安大学, 2012. LI Tianhua. Dynamic response and damage assessment of reinforced concrete slabs subjected to blast loading[D]. Xi'an: Chang'an University, 2012.
[22] ZHOU Jikai, GE Limei. Effect of strain rate and water-to-cement ratio on compressive mechanical behavior of cement mortar[J]. Journal of Central South University, 2015(3):1087-1095.
[23] 胡伟华.不同工况下混凝土动态损伤特性研究[D].宜昌:三峡大学, 2015. HU Weihua. Dynamic damage properties of concrete under different working conditions[D]. Yichang: China Three Gorges University, 2015.
[24] 裴永乐.混凝土与砂浆动态损伤演化研究[D].北京:北京理工大学, 2015. PEI Yongle. Research on the evolution of dynamic damage of concrete and mortar[D].Beijing: Beijing Institute of Technology, 2015.
[25] 肖诗云, 张剑.不同应变率下混凝土受压损伤试验研究[J].土木工程学报, 2010(3):40-45. XIAO Shiyun, ZHANG Jian.Compressive damage experiment of concrete at different strain rates[J].China Civil Engineering Journal, 2010(3):40-45.
[1] ZHAO Jianfeng, LI Hongyi, LIU Suwen. Seismic performance of RC pier with reinforcement corrosion [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2017, 47(3): 112-118.
[2] LIU Xie, LI Guohua, WANG Ming, MA Chishuai. Application of “sleeve-connected H-type” buffer in concrete transportation within oversize shafts [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2017, 47(2): 37-40.
[3] QIN Zipeng, TIAN Yan, LI Gang, MA Yuwei, LIU Le, ZHANG Jinjian. The influence of BFRP layers on the bending properties of the reinforced concrete beams [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2017, 47(1): 76-83.
[4] WANG Hailong, WANG Pei, WANG Lei, ZHANG Ke. Mechanical characteristics effect of waste rubber powder on combined aggregate concrete [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2016, 46(6): 89-96.
[5] BU Liangtao, YUAN Haitao. Experimental research on two-sided shearing bonding property of fiber cement mortar to concrete [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2016, 46(4): 76-82.
[6] SONG Xiuguang, ZHOU Jian, HOU Yue, GE Zhi, SUN Renjuan. Properties of anti-dispersing pervious concrete [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2016, 46(4): 60-67.
[7] GAO Zhijun, CUI Xinzhuang, SUI Wei, GUO Hong, LIU Hang, LI Changyi, FENG Hongbo. Dynamic interaction and damage analysis of large runaway vehicle and tunnel lining [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2014, 44(5): 49-57.
[8] WANG Jia-chun1, ZHANG Zhao-hua2, SHU Ning3. In situ testing and evaluation of the permeability of concrete [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2013, 43(5): 74-79.
[9] ZHANG Na1,2, CUI Xin-zhuang1,2*, ZHANG Jiong1,2, ZHOU Ya-xu1,2, GAO Zhi-jun1,2, SUI Wei1,2. Settlement-controlling and pressure-reduction effect of pervious concrete pile  under the action of embankment load [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2013, 43(4): 80-86.
[10] XU Ming-xia1,2, JIANG Xin-liang1, SUN Ming-ting3. Simplified calculation method under uniform distributed load for composite wall panels [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2012, 42(6): 80-85.
[11] WANG Hao1, LI Peng-cheng2*, MAO Hong-lu2, SUN Ren-juan2, GE Zhi2. Analysis on influence factors of the earlyage cracking of concrete pavement [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2012, 42(5): 108-112.
[12] CUI Xin-zhuang1,2, WANG Cong1,2, ZHOU Ya-xu1,2, ZHANG Na1,2, GAO Zhi-jun1,2. Anti-earthquake mechanism of pervious concrete pile composite foundation [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2012, 42(4): 86-91.
[13] GUO De-dong1,2, SHA Ai-min3. Techniques for snow-melting and deiced based on  microwave and magnet coupling effect [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2012, 42(4): 92-97.
[14] GAO Gui-bo1, QIAN Chun-xiang2, YUE Qin-yan3, WANG Yong-wei1, LU Tong-wei1. The effect of pre-embedded phase change materials on temperature rise caused by the hydration heat evolution of concrete [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2011, 41(6): 91-96.
[15] LI Shoukai, ZHANG Feng, LI Shucai*, SHAO Dongliang. Research on the influence of constructing localization of vertical
prestress tendons to their  prestress loss
[J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2011, 41(3): 101-105.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!