Development of a Fatigue Model for Low Alloy Steels Using a Cycle-Dependent Cohesive Zone Law

Kyungmok Kim; Jaewook Lee; Joo-Ho Choi

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Development of a Fatigue Model for Low Alloy Steels Using a Cycle-Dependent Cohesive Zone Law

机译：低合金钢疲劳模型的建立，其依据是循环依赖的粘结区定律

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A fatigue model for SAE 4130 steels is developed using a cycle-dependent cohesive zone law. Reduction of fracture energy and degradation of stiffness are considered to describe failure resistance after certain number of cycles. The reduction rate of fracture energy is determined with experimental stress (S)- number of cycles to failure (N) scatter found in the literature. Three-dimensional finite element models containing a cohesive zone are generated with commercial software (ABAQUS). Calculated fatigue lives at different stress ratios are in good agreement with experimental ones. In addition, fatigue behavior of hardened SAE 4130 steels is predicted with that of normalized material.

机译：使用依赖于周期的内聚区定律，开发了SAE 4130钢的疲劳模型。断裂能量的减少和刚度的降低被认为是描述一定次数循环后的抗破坏性。断裂能的降低率由实验应力（S）-失效循环数（N）散布确定。包含粘性区域的三维有限元模型是使用商业软件（ABAQUS）生成的。不同应力比下的疲劳寿命计算值与实验值吻合良好。此外，可预测硬化SAE 4130钢的疲劳行为与正火材料的疲劳行为。

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《Advances in Mechanical Engineering》 |2014年第2期|共8页
作者
Kyungmok Kim; Jaewook Lee; Joo-Ho Choi;
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1. Development of a Fatigue Model for Low Alloy Steels Using a Cycle-Dependent Cohesive Zone Law [J] . Kyungmok Kim, Jaewook Lee, Joo-Ho Choi Advances in Mechanical Engineering . 2014,第Pta2期

机译：低合金钢疲劳模型的建立，其依据是循环依赖的粘结区定律
2. Fretting fatigue simulation for aluminium alloy using cohesive zone law approach [J] . Kim Kyungmok, Yoon Myung-Jin International Journal of Mechanical Sciences . 2014,第Null期

机译：内聚区法在铝合金微动疲劳模拟中的应用
3. High-cycle fatigue simulation for aluminium alloy using cohesive zone law [J] . Kyungmok Kim Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2013,第4期

机译：基于内聚区定律的铝合金高周疲劳模拟
4. A study on the influence of fatigue damage initiation laws for cohesive zone models in propagation-driven load cases [C] . Michael May, Paul W. Harper, Stephen R. Hallett AIAA/ASCE/AHS/ASC structures, structural dynamics and materials conference;AIAA SciTech Forum . 2018

机译：疲劳损伤萌生规律对传播驱动载荷作用下内聚区模型的影响研究
5. Development of a cohesive zone model for adhesive joints that includes humidity and fatigue degradation [D] . Costa, Marcelo Bruno Serrão Fontes Parente da 2018

机译：开发用于粘合接头的内聚区模型，其中包括湿度和疲劳降解
6. A review of cohesive zone modelling as an approach for numerically assessing hydrogen embrittlement of steel structures [O] . L. Jemblie, V. Olden, O. M. Akselsen -1

机译：粘性区建模作为数值评估钢结构氢脆的一种方法的综述
7. Development of cohesive zone models for the prediction of damage and failure of glass/steel adhesive joints [O] . Ioannis Katsivalis, Ole Thybo Thomsen, Stefanie Feih, 2020

机译：开发粘性区域模型，用于预测玻璃/钢胶粘剂损坏和失效
8. Modeling the Ductile Brittle Fracture Transition in Reactor Pressure Vessel Steels Using a Cohesive Zone Model Based Approach, International Workshop on Structural Materials for Innovative Nuclear Systems. [R] . Chakraborty, P., Bulent Biner, S. 2013

机译：基于粘聚区模型的方法模拟反应堆压力容器钢中延性脆性断裂过渡，国际创新核系统结构材料研讨会。

Development of a Fatigue Model for Low Alloy Steels Using a Cycle-Dependent Cohesive Zone Law

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