Experimental and Numerical Investigation of Factors That Affecting in Frictional Welding of Mild Steel and Al alloy A356

N. Abd-Ali, Ahmed Raee Madeh
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引用次数: 1

Abstract

Friction welding is one of the most advanced welding techniques in the world today, due to the ability of this technique to find weld specimens with high performance specifications. The present study deals with friction welding of similar metals (mild steel) and similar metals (aluminium alloy A356) for solid and hollow specimen, also the results were studied analytically methods using ANSYS(16) software program. The fracture force of standard specimens were 576.33 MPa and 105.41 MPa, while this force of welded specimens were 463.64 MPa and 69.04 MPa for mild steel and Al-A356 respectively with reduction about (30%) in equivalent stress values. The hardness was increased at the weld region as a results of the friction pressure and oxidation process and the differences in these value due to the metals nature and its crystal construction. The temperatures distribution in both practical and theoretical methods refers to the symmetrical distribution along the weld region. The fatigue sensitivity of two metals were showed that the minimum life in mild steel was (8523 cycle) while the minimum life in Al-A356 was (1713 cycle) under same load condition.
低碳钢与A356铝合金摩擦焊接影响因素的试验与数值研究
摩擦焊是当今世界上最先进的焊接技术之一,因为这种技术能够找到具有高性能规格的焊接试样。采用ANSYS(16)软件对实心和空心试样的相似金属(低碳钢)和相似金属(铝合金A356)的摩擦焊接进行了分析研究。标准试样的断裂力为576.33 MPa和105.41 MPa,低碳钢和Al-A356焊接试样的断裂力分别为463.64 MPa和69.04 MPa,等效应力值降低了约30%。由于摩擦压力和氧化过程,以及由于金属性质和其晶体结构而导致的这些值的差异,焊接区域的硬度增加。实际方法和理论方法中的温度分布都是指沿焊缝区域的对称分布。两种金属的疲劳敏感性表明,在相同载荷条件下,低碳钢的最小寿命为8523个循环,而Al-A356的最小寿命为1713个循环。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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