Characterization of Vacuum Explosive Welded Joints between Titanium and Stainless Steel for Vacuum Applications

Q4 Engineering

Annals of Dunarea de Jos University of Galati, Fascicle XII, Welding Equipment and Technology Pub Date : 2018-12-28 DOI:10.35219/awet.2018.03

M. Enav, O. Botstein, D. Ashkenazi, A. Stern, Israel Ika Labs

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引用次数: 1

Abstract

A two-layered vacuum explosive welded (EXW) plate, consisting of titanium-grade 1/stainless steel 304L (Ti/304L), was investigated for vacuum applications. The interface of the Ti/304L displayed a wavy shape characteristic of the EXW method, which reflects the existence of mass transfer during bonding. The aim of this study was to examine the feasibility of using Ti/304L EXW joints for vacuum application. The Ti/304L EXW plate was examined by non-destructive and destructive metallurgical methods, including visual testing, scanning acoustic testing, light microscopy and metallography, SEM-EDS examination, microindentation hardness measurements, ram tensile test, fractography, and leak testing. According to the metallurgical testing methods, the formation of brittle intermetallic phases took place adjacent to the bonding interface. The intermetallic phases formed at the interface of the Ti/304L, behave as the weakest part in the joint, and determine the brittle type of fracture received under tensile stresses. The measured typical tensile strength of the joint is around 300 MPa, similar to that of the Ti 1 alloy. Based on the leak test results, the examined EXW Ti/304L components were found to be feasible for vacuum applications.

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真空应用中钛与不锈钢真空爆炸焊接接头的表征

研究了钛级1/ 304L不锈钢(Ti/304L)双层真空爆炸焊接(EXW)板的真空应用。Ti/304L的界面呈现出EXW法的波浪状特征，反映了键合过程中传质的存在。本研究的目的是研究Ti/304L EXW接头用于真空应用的可行性。Ti/304L EXW板通过无损和破坏性冶金方法进行检测，包括目视测试、扫描声学测试、光学显微镜和金相、SEM-EDS检查、微压痕硬度测量、冲压件拉伸测试、断口学和泄漏测试。根据金相测试方法，脆性金属间相的形成发生在结合界面附近。在Ti/304L界面处形成的金属间相是接头中最薄弱的部分，决定了在拉伸应力作用下断裂的脆性类型。接头的典型抗拉强度在300 MPa左右，与Ti - 1合金的抗拉强度相近。根据泄漏测试结果，测试的EXW Ti/304L组件在真空应用中是可行的。

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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