Effects of the laser beam superficial heat treatment on the gas Tungsten arc Ti-6al-4v welded metal microstructure

I. Voiculescu, O. Donţu, V. Geantǎ, S. Ganatsios
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引用次数: 2

Abstract

The microstructure of the weld and the extent to which it is different from the thermo-mechanically processed base material is strongly influenced by the thermal cycle of welding. The mechanical properties of composite weld structures in titanium alloys depend on structural characteristics of each region (weld, base material and heat affected area), influenced by the specific thermal cycle imposed during welding and the subsequent post-weld heat treatment. In order to improve the as-welded metal toughness and ductility, the welded metal was subjected to various post weld laser heat treatments, above and below beta transus temperature in a shielding atmosphere of pure argon. Standard micro-hardness measurements and tensile strength techniques showed higher mechanical properties of the heat treated samples in different conditions with respect to the base metal. Metallographic investigations attribute this to the formation of α'phases in heat treated material, especially in the weld metal.
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激光束表面热处理对气体钨弧Ti-6al-4v焊接金属组织的影响
焊接热循环对焊缝组织及其与热机械加工母材的不同程度有很大影响。钛合金复合焊缝结构的力学性能取决于每个区域(焊缝、母材和热影响区域)的结构特性,受焊接时施加的特定热循环和随后的焊后热处理的影响。为了提高焊后金属的韧性和延展性,在纯氩气的保护气氛下,对焊接金属进行了高于和低于- trans温度的各种焊后激光热处理。标准显微硬度测量和拉伸强度技术表明,热处理样品在不同条件下的机械性能高于母材。金相研究将此归因于热处理材料中α′相的形成,特别是在焊接金属中。
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