Fatigue lifetime prediction with a validated micromechanical short crack model for the ferritic steel EN 1.4003

Erik Natkowski; Ali Riza Durmaz; Petra Sonnweber-Ribic; Sebastian Muenstermann

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Fatigue lifetime prediction with a validated micromechanical short crack model for the ferritic steel EN 1.4003

机译：疲劳寿命预测与铁素体钢验证的微机械短裂纹模型EN 1.4003

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Microstructural short crack (MSC) growth profoundly influences the fatigue lifetime of steels. For finite element simulations with crystal plasticity, a MSC model for industrial application is described for the ferritic steel EN 1.4003. As transgranular cracking is dominant in the early fatigue stages for this material, intergranular crack growth is excluded. Crack data from micro fatigue specimen is used to validate simulated crack paths. With a manual prescription of the crack initiation site, a substantial agreement between the predicted and experimental crack paths is revealed. Using an appropriate calibration strategy for the parametrization of the MSC model, the feasibility for lifetime prediction is also shown.

机译：微观结构短裂纹（MSC）增长深刻地影响钢的疲劳寿命。对于具有晶体塑性的有限元模拟，对于铁素体钢EN 1.4003，描述了工业应用的MSC模型。由于肾小瓣裂化在该材料的早期疲劳阶段中显着，排除了晶间裂纹生长。来自微疲劳样本的裂缝数据用于验证模拟裂缝路径。对于裂缝启动部位的手动处方，揭示了预测和实验裂纹路径之间的大量协议。使用适当的校准策略进行MSC模型的参数化，还示出了寿命预测的可行性。

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来源
《International Journal of Fatigue》 |2021年第11期|106418.1-106418.15|共15页
作者
Erik Natkowski; Ali Riza Durmaz; Petra Sonnweber-Ribic; Sebastian Muenstermann;
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作者单位

Robert Bosch GmbH Corporate Sector Research and Advance Engineering 71272 Renningen Germany Integrity of Materials and Structures Steel Institute RWTH Aachen University 52072 Aachen Germany;

Fraunhofer Institute for Mechanics of Materials 79108 Freiburg im Breisgau Germany;

Robert Bosch GmbH Corporate Sector Research and Advance Engineering 71272 Renningen Germany;

Integrity of Materials and Structures Steel Institute RWTH Aachen University 52072 Aachen Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Fatigue crack growth; Life prediction; Micromechanics; Short cracks;

机译：疲劳裂纹增长;生活预测;微机械;短裂缝;

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机译：钛合金疲劳寿命的预测模型。第1部分。建立微结构裂纹前的疲劳寿命模型和物理裂纹及长裂纹的传播模型
2. AN OVERVIEW OF THE HEAT-AFFECTED ZONE SENSITIZATION AND STRESS CORROSION CRACKING BEHAVIOUR OF 12% CHROMIUM TYPE 1.4003 FERRITIC STAINLESS STEEL [J] . M. Du Toit, G. T. Van Rooyen, D. Smith Welding Research Abroad . 2008,第4期

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4. Prediction model for fatigue life and limit of steel based on small crack micromechanics [C] . Hiroaki Ito, Kazuki Shibanuma, Koya Ueda, European Conference on Fracture . 2019

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6. Micromechanical Modelling of the Influence of Strain Ratio on Fatigue Crack Initiation in a Martensitic Steel-A Comparison of Different Fatigue Indicator Parameters [O] . Benjamin Josef Schäfer, Petra Sonnweber-Ribic, Hamad ul Hassan, 2019

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Fatigue lifetime prediction with a validated micromechanical short crack model for the ferritic steel EN 1.4003

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