INVESTIGATION USING FINITE ELEMENT ANALYSIS OF EFFECT TO EARRING OF ANISOTROPY PARAMETERS IN DEEP DRAWING PROCESS

Q4 Engineering International Journal of Modern Manufacturing Technologies Pub Date : 2023-06-20 DOI:10.54684/ijmmt.2023.15.1.80

Kadir Gök, Hamza Taş, A. Gök, M. Alkan

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Abstract

The investigation mentioned focuses on utilizing finite element analysis to study the impact of anisotropy parameters on the behavior of earrings during the deep drawing process. deep drawing is a manufacturing technique used to transform flat sheet metal into three-dimensional shapes, and anisotropy refers to the directional dependence of material properties. by analyzing and understanding how anisotropy parameters affect the behavior of earrings during the deep drawing process, this investigation aims to provide valuable insights for optimizing the manufacturing process and enhancing the quality and durability of earrings. In this study, an Al6061-T6 sheet material with different planar anisotropies with a single thickness of 2 mm was employed to simulate the effects of anisotropy parameters on the earring by using finite element method. The effects of anisotropy parameters on the earring were examined by using FEM. Variations force obtained in Δr_2 are higher than Δr_1. This is due to the anisotropy of the material. It can be said that the FEM simulations give reasonable results in view of earring for deep drawing processes. So, experimental costs can therefore be avoided using a suitable FEM model.

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拉深过程中各向异性参数对耳环影响的有限元分析研究

上述研究的重点是利用有限元分析来研究各向异性参数对耳环在拉深过程中的行为的影响。拉深是一种用于将平板金属转化为三维形状的制造技术，各向异性是指材料特性的方向依赖性。通过分析和理解各向异性参数如何影响耳环在拉深过程中的行为，本研究旨在为优化耳环的制造工艺、提高耳环的质量和耐用性提供有价值的见解。在本研究中，采用单一厚度为2mm的具有不同平面各向异性的Al6061-T6片材，通过有限元方法模拟各向异性参数对耳环的影响。采用有限元法研究了各向异性参数对耳环的影响。Δr_2中获得的变化力大于Δr_1。这是由于材料的各向异性。可以说，考虑到耳环的拉深工艺，有限元模拟给出了合理的结果。因此，使用合适的有限元模型可以避免实验成本。

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来源期刊

International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering

CiteScore

0.70

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0.00%

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期刊介绍： The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.