Calculation of the fatigue limit of pulsed laser hardened specimen based on an engineering interpretation of the weakest-link concept

S. Schnack; R. Kienzler

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Calculation of the fatigue limit of pulsed laser hardened specimen based on an engineering interpretation of the weakest-link concept

机译：基于最弱连接概念的工程解释计算脉冲激光淬火标本的疲劳极限

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Specimen made of two steels, a 42CrMo4 (SAE 4140) and a 100Cr6 (SAE 52100), are hardened with a pulsed Nd:YAG-laser and tested under cyclic bending. A method based on Weibull's weakest-link concept is developed to calculate the fatigue limit. The probability of endurance is calculated at each material point in order to take into account the local differences of quantities influencing failure like, e.g., the applied and residual stresses, the roughness and the hardness. Multiaxial stress states are considered by an equivalent stress criterion based on the approach of Dang Van. The model allows for two material-dependent fit parameters to adjust experimental results and theoretical predictions. The fatigue limit is determined by varying the applied load until the total endurance probability equals 0.5.

机译：用脉冲Nd：YAG激光对由42CrMo4（SAE 4140）和100Cr6（SAE 52100）两种钢制成的试样进行硬化，并在循环弯曲下进行测试。提出了一种基于威布尔最弱连接概念的方法来计算疲劳极限。在每个材料点上计算出承受力的可能性，以便考虑到影响失效数量的局部差异，例如施加的应力和残余应力，粗糙度和硬度。基于党范的方法，通过等效应力准则考虑多轴应力状态。该模型允许两个依赖于材料的拟合参数来调整实验结果和理论预测。疲劳极限是通过改变施加的载荷直到总耐力概率等于0.5来确定的。

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《Engineering Fracture Mechanics》 |2004年第6期|共9页
作者
S. Schnack; R. Kienzler;
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正文语种 eng
中图分类工程力学;
关键词
Pulsed laser hardened steel; Weakest-link concept; Fatigue limit calculation;

机译：脉冲激光淬火钢;最弱连接概念;疲劳极限计算;

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1. Calculation of the fatigue limit of pulsed laser hardened specimen based on an engineering interpretation of the weakest-link concept [J] . S. Schnack, R. Kienzler Engineering Fracture Mechanics . 2004,第4a6期

机译：基于最弱连接概念的工程解释计算脉冲激光淬火标本的疲劳极限
2. Endurance limit of pulsed laser hardened component-like specimens-Experiment and simulation [J] . G. Habedank, J. Woitschig, T. Seefeld, Materials Science and Engineering . 2008,第1a2期

机译：脉冲激光淬火构件样件的耐久性极限-实验与仿真
3. Calculation of fatigue limits of case-hardened specimens with consideration of mean stresses and residual stresses [J] . Computational Mechanics . 2002,第5期

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4. CALCULATION OF THE FATIGUE LIMIT OF NITRIDED SPECIMEN BASED ON A MODIFIED WEAKEST LINK CONCEPT [C] . R.Kienzler International conference of the Engineering Iegrity Society . 2003

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5. Novel concepts for laser-plasma-based acceleration of electrons using ultrahigh power laser pulses. [D] . Kim, Joon-Koo. 1998

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6. Nanoparticles Engineering by Pulsed Laser Ablation in Liquids: Concepts and Applications [O] . Enza Fazio, Bilal Gökce, Alessandro De Giacomo, 2020

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7. Fatigue Strength of Micro Pulse Induction Hardened Steel. Effect of Case-Hardened Depth on Fatigue Strength of Micro Pulse Induction Hardened S45C Thermal Refined Steel. [O] . Takeshi HORIKAWA, Hiroshi NAKAMURA, Masahiko KAWAMURA, 1996

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8. Weakest-Link Approach for Fatigue Limit of 30CrNiMo8 Steels (Preprint). [R] . Ekwaro-Osire, S., Kulkarni, H. V. 2011

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Calculation of the fatigue limit of pulsed laser hardened specimen based on an engineering interpretation of the weakest-link concept

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