Analysis of Mechanical and Metallurgical Properties of Friction Welded ASTM A106Gr.B Carbon Steel Pipe Joints by Varying Upset Pressures

Indian Welding Journal Pub Date : 2019-04-01 DOI:10.22486/IWJ.V52I2.181780

Sk. Abdul Khadeer, P. R. Babu, B. Kumar, A. Kumar

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Abstract

Friction welding is one of the most common methods employed in the joining of carbon and alloy steel tubular sections. In the present work, the analysis of the effect of upset pressure on mechanical and metallurgical properties of friction welded ASTM A 106 Gr. B low carbon steel pipes has been investigated. The test joints were made using continuous drive welding machine with upset pressures of 5 MPa to 8 MPa and evaluated for microstructure, hardness, tensile strength and impact toughness. The weld joints exhibited mostly ferrite and pearlite microstructure in both fully plastically deformed zone (FPDZ), partially deformed zone (PDZ) on the either side of the weld interface and a distinct dynamically recrystallized ferrite pearlite microstructure was observed in the FPDZ at the weld centre line. Better tensile properties were observed in case of the joints made with upset pressure of 6.4 MPa. It is observed that the weld region is stronger than base metal and the hardness has increased with the increase in the upset pressure. Marginal reduction in the toughness was noted with the increase in the upset pressure.

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ASTM A106Gr摩擦焊接的力学和冶金性能分析。不同镦压压力下的碳钢管接头

摩擦焊是碳钢和合金钢管截面连接中最常用的方法之一。本文研究了镦压对ASTM A 106 Gr. B低碳钢摩擦焊接管力学性能和冶金性能的影响。试验接头采用连续驱动焊机焊接，镦压压力为5 ~ 8 MPa，并进行显微组织、硬度、抗拉强度和冲击韧性评定。在焊缝界面两侧的完全塑性变形区(FPDZ)和部分变形区(PDZ)焊缝接头均表现为铁素体和珠光体的显微组织，而在焊缝中心线的完全塑性变形区(FPDZ)则表现为明显的动态再结晶铁素体珠光体显微组织。当镦粗压力为6.4 MPa时，接头的抗拉性能较好。结果表明，焊缝区比母材强，硬度随镦压压力的增大而增大。随着镦压压力的增加，韧性的边际降低被注意到。

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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Indian Welding Journal

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