通过疲劳分析评估摩擦搅拌焊接工具寿命

Hanuma Taraka, Pankaj Pardeep, Biswas Pankaj, Deepati Anilkumar, Benjeer Indira, Kumar Aadarsh
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引用次数: 0

摘要

摘要 搅拌摩擦焊是一种用于焊接各种材料的固态连接工艺。使用搅拌摩擦焊技术(FSW)焊接强金属时,工具寿命是一个重要的考虑因素。本研究旨在通过数学推导和 ANSYS 瞬态结构分析模拟计算工具寿命。需要考虑两种工具材料和五针轮廓。使用数学公式计算出的工具寿命与模拟结果的误差在 15%以内。为了使 FSW 操作下的工具寿命估算更符合实际情况,我们对模拟进行了进一步修改。PcBN 工具的机械性能优于碳化钨工具,因此程序从碳化钨工具开始。在 450 rpm 的转速下工作时,锥形针轮廓的刀具寿命为 31466 次,即 70 分钟的运行时间。因此,在连接高强度材料时,必须根据刀具寿命参数来选择刀具。在销轴与肩部交界处增加 1.5 毫米的圆角后,刀具寿命提高了 1147 次。PcBN 工具采用锥形工具进行模拟,新的销轴轮廓为带凹槽的锥形和带凹槽的圆柱形圆角。锥形 PcBN 工具的最长工具寿命为 94018 次循环。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Friction Stir Welding Tool Life Assessment Through Fatigue Analysis
Abstract Friction stir welding is a solid-state joining process used to weld various materials. Tool life is an important consideration when welding strong metals with the Friction stir welding technique (FSW). The current research aims to calculate tool life by mathematical derivation and simulation using ANSYS transient structural analysis. There are two tool materials and five-pin profiles to consider. The calculated tool life using mathematical formulation is within 15% of the simulation outcome. Further changes are made to the simulation to make the tool life estimate more realistic under FSW’s operation. PcBN tool has superior mechanical properties over the tungsten carbide tool, so the procedure started with the tungsten carbide tool. The conical pin profile is giving 31466 cycles of tool life, which is 70 min run time while working at 450 rpm rotational speed. As a result, for high-strength materials joining, the tool must be chosen based on tool life parameters. The addition of a 1.5 mm fillet at the pin-to-shoulder junction has improved the tool life by 1147 cycles. The PcBN tool is simulated with a conical tool with new pin profiles of conical with grooves and cylindrical fillet with grooves. The maximum tool life of 94018 cycles is obtained for the conical PcBN tool.
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