|
|
Closure behavior of fatigue crack by finite element method |
FENG Gang1, 2,ZHANG Chao-ge1,GONG Da-wei 3,HAN Cheng-jiang1,LIN Ke-wei1,QI Ji-bao1,2 |
1. Mechanical Engineering Department,Zhejiang Industry Polytechnic College,Shaoxing 312000,Zhejiang, China 2. Modern Manufacturing Engineering Institute,Zhejiang University,Hangzhou 310000,Zhejiang, China 3. College of Mechatronics Engineering,University of Electronic Science and Technology,Chengdu 611731,Sichuan,China |
|
|
Abstract The behaviour of fatigue crack growth was significantly changed by the closure behavior of fatigue crack. The crack closure behaviour of 316L stainless steel was investigated by combining the loading test and the numerical simulation to study the dynamic crack propagation. The fatigue crack growth experiment included the constant amplitude loading and single tensile overload. The crack closure behaviour and the crack growth rate in different propagation period were studied with different crack length, stress ratio and overload. The intrinsic mechanisation between the single tensile overload and the crack closure was discussed. An improved model to calculate the effective stress intensity factor range was applied based on the theory of crack closure and the calculated results. The prediction formulation of crack growth rate was fitted about the 316L steel.
|
Received: 03 November 2015
Published: 26 April 2016
|
|
|
|
|
[1] |
LIU Long,LI Nan,LUO Zhi-qiang. Analysis of cracking in tracks for a type of armored vehicle[J]. PHYSICS EXAMINATION AND TESTING, 2020, 38(2): 22-. |
[2] |
TANG Cun-jiang,SHANG Cheng-jia,XIA Dian-xiu,ZHOU Yun,CHEN Yun-bo. Characterization parameters for strain hardening behavior of ferrite/bainite multiphase steel[J]. JOURNAL OF IRON AND STEEL RESEARCH , 2019, 31(6): 553-562. |
[3] |
LI Song-fen. Fatigue crack growth behavior of DP780 dual phase steel subjected to single tensile overload[J]. Iron and Steel, 2019, 54(3): 82-86. |
[4] |
ZHAI Zhan-jiang,,PENG Yun,LIU Tao,LUAN Pei-feng. Effect of stress ratio on fatigue crack propagation threshold value of 25Cr2Ni2MoV steel[J]. , 2019, 37(1): 9-13. |
[5] |
XU Jian-kang,YANG Zhen-jiong,FANG Jian-fei,HU Shuai,WANG Hui,. Fracture failure analysis of a hexagon head bolt on the bogie for motor cars[J]. , 2019, 37(1): 49-53. |
[6] |
FU Yuan,,LIAO Yan-song,LU De-ping,LIU Jin,CHEN Zhi-bao,WEI Shi-yong,. HCF propagation with unilateral initial crack in 304 stainless steel piece by XFEM[J]. Iron and Steel, 2018, 53(9): 63-68. |
|
|
|
|