Low cycle fatigue of components manufactured by rod extrusion: Experiments and modeling

IF 3.9 Q2 ENGINEERING, INDUSTRIAL Advances in Industrial and Manufacturing Engineering Pub Date : 2023-10-20 DOI:10.1016/j.aime.2023.100130
Kai Langenfeld , Lars Lingnau , Jan Gerlach , Patrick Kurzeja , Robin Gitschel , Frank Walther , Tobias Kaiser , Till Clausmeyer
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Abstract

The performance of formed components is significantly influenced by the initiation of ductile damage. Preceding forming operations, for instance, affect the service life determined in fatigue tests. In the current investigation, the effect of ductile damage in forming is isolated by changing the shoulder opening angle in forward rod extrusion. Forming-induced ductile damage is then related to measurements of void area fraction, density and Young’s modulus. Subsequent fatigue tests in the low cycle range indicate that the service life of the extruded components can be improved through a reduction of the forming-induced damage. A novel constitutive model considering forming-induced damage and fatigue damage is proposed to account for the observed behavior in axial fatigue tests of extruded components. The non-local ductile damage formulation is formulated in the framework of Generalized Standard Materials. Kinematic and isotropic hardening are considered. Based on earlier work of Lemaitre and Desmorat, the fatigue damage initiation criterion is extended to take the observed mechanical behavior in low cycle axial fatigue tests of formed components into account. The extended model is able to capture the effect of forming-induced damage on the service life.

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棒材挤压制造部件的低周疲劳:实验与建模
成形部件的性能受到延性损伤的启动的显著影响。例如,之前的成形操作会影响疲劳试验中确定的使用寿命。在目前的研究中,通过改变杆件正向挤压中的肩部开口角度来隔离成形中的韧性损伤的影响。然后,成形诱导的韧性损伤与空隙面积分数、密度和杨氏模量的测量有关。随后在低循环范围内的疲劳试验表明,可以通过减少成形引起的损伤来提高挤压部件的使用寿命。提出了一种新的考虑成形诱导损伤和疲劳损伤的本构模型,以解释挤压构件轴向疲劳试验中观察到的行为。非局部延性损伤公式是在广义标准材料的框架下制定的。考虑了运动硬化和各向同性硬化。在Lemaitre和Desmorat早期工作的基础上,将疲劳损伤萌生准则扩展到考虑成形部件低周轴向疲劳试验中观察到的力学行为。扩展模型能够捕捉成形引起的损伤对使用寿命的影响。
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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
期刊最新文献
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