Experimental investigation on dynamic fracture toughness of offset crack material using caustic method

Li Qing; Cao Huaijian; Yang Mingze; Guo Yang; Xue Yaodong; Yu Qiang

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Article Navigation > Journal of Mining Science and Technology > 2017 > 2(3): 243-250

Li Qing, Cao Huaijian, Yang Mingze, Guo Yang, Xue Yaodong, Yu Qiang. Experimental investigation on dynamic fracture toughness of offset crack material using caustic method[J]. Journal of Mining Science and Technology, 2017, 2(3): 243-250.

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Experimental investigation on dynamic fracture toughness of offset crack material using caustic method

1.
School of Mechanics and Civil Engineering,China University of Mining and Technology,Beijing 100083,China;2.Huozhou Coal and Electricity Tenghui Coal Industry Co.,Ltd.,Huozhou Shanxi 031400,China

Received Date: 2016-08-26
Publish Date: 2017-06-30

Abstract

Abstract

The dynamic fracture behavior of notched semi-circular bending(NSCB)subjected to hammer impact loading was studied by using caustics experimental method.The results show that the shear stress at the crack tip increased with the offset distance increased,and correspondingly,the crack changed from mode I to mixed mode I-II,the time from impact force loaded to crack initiation also increased,moreover,the crack deflecting angle became more fluctuating with crack propagation;the crack velocity increased rapidly under dynamic load until it reached a certain value with continual fluctuation,with the ratio of crack vertical displacement to the total vertical length λ＞0.8,the crack velocity sharply decreased because of the effect of the local compressive stress around the hammer;as the offset distance increased,the initial fracture toughness K_IC decreased,whereas K_IIC increased;while the dynamic propagation toughness increased gradually with crack propagation.
- offset crack,
- semi-circular specimen,
- caustics method,
- stress intensity factor,
- crack velocity

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[1]	Chong K P,Kuruppu M D.New specimen for fracture toughness determination for rock and other materials[J].International Journal of Fracture,1984,26(2):59-62.
[2]	Krans R L.Semi-circular bending test:a practical crack growth test using asphalt concrete cores[C].International RILEM Conference on Reflective Cracking in Pavements,3rd,1996,Maastricht,The Netherlands,1996:123-132.
[3]	Dai F,Chen R,Xia K.A semi-circular bend technique for determining dynamic fracture toughness[J].Experimental Mechanics,2010,50(6):783-791.
[4]	Zhou Y X,Xia K,Li X B,et al.Suggested methods for determining the dynamic strength parameters and mode-I fracture toughness of rock materials[G]// The ISRM Suggested Methods for Rock Characterization,Testing and Monitoring:2007-2014.Springer International Publishing,2012:105-112.
[5]	耿宁宁.静动态混凝土半圆弯拉实验的数值模拟[D].合肥:合肥工业大学,2013.
[6]	刘帅华,李振兴.T应力对Ⅰ-Ⅱ复合型裂纹临界应力强度因子的影响[J].河南城建学院学报,2013,22(4):33-37.
[7]	Liu Shuaihua,Li Zhenxing.Effect of T stress on critical stress intensity factor of Ⅰ-Ⅱ mixed mode crack[J].Journal of Henan University of Urban Construction,2013,22(4):33-37.
[8]	代树红,马胜利,潘一山.数字图像相关法测定岩石Ⅰ-Ⅱ复合型裂纹应力强度因子[J].岩土工程学报,2013,35(7):1362-1368.
[9]	Dai Shuhong,Ma Shengli,Pan Yishan.Evaluation of mixed-mode Ⅰ-Ⅱ stress intensity factors of rock utilizing digital image correlation method[J].Chinese Journal of Geotechnical Engineering,2013,35(7):1362-1368.
[10]	陈静静.基于高速DIC方法的脆性材料动态力学性能研究[D].北京:北京理工大学,2014.
[11]	Ayatollahi M R,Aliha M R M,Hassani M M.Mixed mode brittle fracture in PMMA-An experimental study using SCB specimens[J].Materials Science and Engineering,2006,417(1):348-356.
[12]	Ayatollahi M R.An improvedsemi-circular bend specimen for investigating mixed mode brittle fracture[J].Engineering Fracture Mechanics,2011,78(1):110-123.
[13]	Papadopoulos G A.The experimental method of caustics and the det.-criterion of fracture[M].London:Springer-Verlag,1993.
[14]	Beinert J,Kalthoff J F.Experimental determination of dynamic stress intensity factors by shadow patterns[M].Netherlands:Springer,1981:281-330.
[15]	Kalthoff J F.The shadow optical method of caustics[M].Vienna:Springer,1987:407-522.
[16]	Gong K,Li Z.Caustics method in dynamic fracture problem of orthotropic materials[J].Optics & Lasers in Engineering,2008,46(8):614-619.
[17]	Gao G,Li Z,Xu J.Optical method of caustics applied in viscoelastic fracture analysis[J].Optics & Lasers in Engineering,2011,49(5):632-639.
[18]	Kutter H K,Fairhurst C.On the fracture process in blasting[J].International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts,1971,8(3):181-202.
[19]	Rossmanith H P,Daehnke A,Nasmillner R E K,et al.Fracture mechanics applications to drilling and blasting[J].Fatigue & Fracture of Engineering Materials & Structures,2008,20(11):1617-1636.
[20]	Shimizu K,Suetsugu M,Nakamura T,et al.Evaluation of concentrated load by caustics and its application in the measurement of optical constant[J].Jsme International Journal,1998,41(1):134-141.
[21]	樊金武,励争,王文彦.用焦散线方法测量集中载荷的误差分析[J].实验力学,2003,18(2):145-150.
[22]	Fan Jinwu,Li Zheng,Wang Wenyan.The measuring error for concentrated load by caustics[J].Journal of Experimental Mechanics,2003,18(2):145-150.
[23]	Kumar A.Study of fatigue crack-hole interaction and prediction of crack path[D].Rourkela:National Institute of Technology Rourkela,2015.

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Experimental investigation on dynamic fracture toughness of offset crack material using caustic method

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