Development of a friction model for the numerical simulation of clinching processes

IF 6.3 1区工程技术 Q1 ENGINEERING, MECHANICAL

Friction Pub Date : 2025-06-09 DOI:10.26599/frict.2025.9441052

Max Böhnke, Christian R. Bielak, Robert Beck, Mathias Bobbert, Gerson Meschut

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Abstract

In numerical simulations of mechanical joining processes, such as clinching, modeling of material behavior is of decisive importance. In addition to the correct representation of plasticity and damage mechanisms, this primarily includes modeling of the friction behavior between the parts to be joined. This paper presents a method for experimental characterization and numerical modelling of friction behavior in mechanical joining processes like clinching. An axial torsion test was used to generate surface conditions on technological specimens, which also occur in the joined parts during the clinching process. This method also enables the independent investigation of friction-relevant parameters, such as relative velocity and contact pressure. The experimental datasets using aluminum material were transferred into an analytical approach. Combined with a modifiable user subroutine, it has been implemented into the finite element (FE) modeling using LS-Dyna. Validation was performed by numerically modeling the axial torsion test and comparing experimental and numerical results. Finally, the clinching process is simulated with the developed friction model and a standard friction model, and the results are compared.

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夹具过程数值模拟摩擦模型的建立

在机械连接过程（如夹紧）的数值模拟中，材料行为的建模是至关重要的。除了塑性和损伤机制的正确表示外，这主要包括要连接的部件之间的摩擦行为的建模。本文提出了一种对夹紧等机械连接过程中摩擦行为进行实验表征和数值模拟的方法。通过轴向扭转试验，得到了工艺试样的表面状况，这些表面状况也会发生在连接件的夹持过程中。该方法还可以独立研究与摩擦相关的参数，如相对速度和接触压力。将铝材料的实验数据转换为分析方法。结合可修改的用户子程序，利用LS-Dyna将其实现到有限元建模中。通过对轴向扭转试验进行数值模拟，并将实验结果与数值结果进行对比，验证了轴向扭转试验的有效性。最后，用所建立的摩擦模型和标准摩擦模型对夹持过程进行了仿真，并对仿真结果进行了比较。

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来源期刊

Friction Engineering-Mechanical Engineering

CiteScore

12.90

自引率

13.20%

发文量

324

审稿时长

13 weeks

期刊介绍： Friction is a peer-reviewed international journal for the publication of theoretical and experimental research works related to the friction, lubrication and wear. Original, high quality research papers and review articles on all aspects of tribology are welcome, including, but are not limited to, a variety of topics, such as: Friction: Origin of friction, Friction theories, New phenomena of friction, Nano-friction, Ultra-low friction, Molecular friction, Ultra-high friction, Friction at high speed, Friction at high temperature or low temperature, Friction at solid/liquid interfaces, Bio-friction, Adhesion, etc. Lubrication: Superlubricity, Green lubricants, Nano-lubrication, Boundary lubrication, Thin film lubrication, Elastohydrodynamic lubrication, Mixed lubrication, New lubricants, New additives, Gas lubrication, Solid lubrication, etc. Wear: Wear materials, Wear mechanism, Wear models, Wear in severe conditions, Wear measurement, Wear monitoring, etc. Surface Engineering: Surface texturing, Molecular films, Surface coatings, Surface modification, Bionic surfaces, etc. Basic Sciences: Tribology system, Principles of tribology, Thermodynamics of tribo-systems, Micro-fluidics, Thermal stability of tribo-systems, etc. Friction is an open access journal. It is published quarterly by Tsinghua University Press and Springer, and sponsored by the State Key Laboratory of Tribology (TsinghuaUniversity) and the Tribology Institute of Chinese Mechanical Engineering Society.