A fabrication history based strain-fatigue model for prediction of crack initiation in a radial loading wheel

Zhao Yan; Ma M.; Qin R. S.; Ling Yun; Wang G.; Wan X.; Gu H.; Liu Yongchen

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A fabrication history based strain-fatigue model for prediction of crack initiation in a radial loading wheel

机译：基于制造历史的应变疲劳模型，用于预测径向加载轮中的裂纹萌生

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摘要

A strain-based fatigue model concerning fabrication history is applied to predict the fatigue life of a commercial car wheel under radial loads. As the prior conditions, the strain fatigue testing is performed on standard specimen of DP590 and FB540 steels at various fabrication states, including raw materials, pre-strain and pre-strain + bake. Furthermore, the strain distribution of car wheel during its rotation under radial loads is simulated via ANSYS. The fatigue properties mainly determined by crack initiation of car wheels at various fabrication states are predicted via local stress-strain method, in which the scale and surface factors are also taken into account. The radial fatigue testing is carried out, and the results are used to validate the present model. The fracture mechanism is analysed using FEI Nova 400 field emission gun scanning electron microscope.

机译：应用基于制造历史的基于应变的疲劳模型来预测商用车轮在径向载荷下的疲劳寿命。作为先决条件，应在各种制造状态下对DP590和FB540钢的标准试样进行应变疲劳测试，包括原材料，预应变和预应变+烘烤。此外，通过ANSYS模拟了车轮在径向载荷下旋转过程中的应变分布。通过局部应力-应变方法预测了主要由车轮在不同制造状态下的裂纹萌生所决定的疲劳性能，其中还考虑了比例和表面因素。进行了径向疲劳测试，并将结果用于验证本模型。使用FEI Nova 400场发射枪扫描电子显微镜分析断裂机理。

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来源
《Fatigue & Fracture of Engineering Materials & Structures》 |2017年第11期|1882-1892|共11页
作者
Zhao Yan; Ma M.; Qin R. S.; Ling Yun; Wang G.; Wan X.; Gu H.; Liu Yongchen;
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作者单位

Automotive Light-weight Engineering Technology Center, China Automotive Engineering Research Institute Co. Ltd, Chongqing, China,Department of Materials Engineering, The Open University, Milton Keynes, United Kingdom;

Automotive Light-weight Engineering Technology Center, China Automotive Engineering Research Institute Co. Ltd, Chongqing, China;

Department of Materials Engineering, The Open University, Milton Keynes, United Kingdom;

Automotive Light-weight Engineering Technology Center, China Automotive Engineering Research Institute Co. Ltd, Chongqing, China;

Automotive Light-weight Engineering Technology Center, China Automotive Engineering Research Institute Co. Ltd, Chongqing, China;

Automotive Light-weight Engineering Technology Center, China Automotive Engineering Research Institute Co. Ltd, Chongqing, China;

Automotive Steel Sheet Research Institute, Ma'anshan Iron and Steel Company, Ma'anshan, China;

Automotive Steel Sheet Research Institute, Ma'anshan Iron and Steel Company, Ma'anshan, China;

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正文语种 eng
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关键词
car wheel; fabrication history; fatigue prediction; local stress-strain method; radial fatigue testing;

机译：车轮制造历史;疲劳预测局部应力应变法径向疲劳测试;

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机译：低合金钢在循环应变下的环境辅助开裂（第三报告，基于电荷转移的裂纹萌生寿命预测模型）
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5. FATIGUE BEHAVIOR UNDER MULTIAXIAL LOADING IN THE PRESENCE OF A NOTCH: METHODOLOGIES FOR THE PREDICTION OF LIFE TO CRACK INITIATION AND LIFE SPENT IN CRACK PROPAGATION (SHOULDER FILLET, PLASTIC STRAIN, PREDICTION). [D] . TIPTON, STEVEN MICHAEL. 1985

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6. Very High Cycle Fatigue Failure Analysis and Life Prediction of Cr-Ni-W Gear Steel Based on Crack Initiation and Growth Behaviors [O] . Hailong Deng, Wei Li, Tatsuo Sakai, 2015

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7. A fabrication history based strain-fatigue model for prediction of crack initiation in a radial loading wheel [O] . Zhao, Y., Ma, M.T., Qin, R., 2017

机译：基于制造历史的应变疲劳模型预测径向加载轮中的裂纹萌生
8. Fatigue Crack Growth Prediction Study Based on the ONERA Model for Constant-Amplitude and Simplified Flight-Simulation Loading [R] . Padmadinata, U. H. 1988

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A fabrication history based strain-fatigue model for prediction of crack initiation in a radial loading wheel

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