# Effect of shielding gas composition and welding speed on autogenous   welds of unalloyed tungsten plates

**Authors:** Gianrocco Marinelli, Filomeno Martina, Supriyo Ganguly, Stewart, Williams

arXiv: 1902.03904 · 2019-02-12

## TL;DR

This study investigates how shielding gas composition and welding speed affect the quality of autogenous tungsten welds, demonstrating that helium-rich gases and lower speeds produce crack-free welds without pre-heating.

## Contribution

It identifies optimal shielding gas mixtures and welding parameters for crack-free tungsten welds, highlighting the importance of helium content and welding speed.

## Key findings

- Helium-rich shielding gases prevent cracks in tungsten welds.
- Lower welding speeds reduce defect formation.
- High helium content enables crack-free welds without pre-heating.

## Abstract

Tungsten usually exhibits poor weldability and marked brittleness at room temperature. This cause tungsten welds to be affected by the evolution of cracks along the weld bead, which can be eliminated by using a pre-heating step to reduce thermal straining. In this study, based on the tungsten inert gas welding process, a working envelope, focussed on varying welding speed and five different shielding gas mixtures of argon and helium, has been defined with the view of producing crack-free autogenous welds. The bead appearance and the microstructure of the different welds were correlated to the welding parameters, whose main effects have been analysed. Welding defects such as humping occurred when using gas mixtures with relatively low content of helium, and when using relatively high welding speeds. Crack-free autogenous welds have been produced without pre-heating when using a high content of helium and relatively low welding speeds. Thus, this study has demonstrated that a helium-rich shielding gas is required for welding thick tungsten plates. Moreover, the low thermal shock induced by the process, coupled with the purity of the tungsten plates used, strongly contributed to avoid the occurrence of any crack.

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Source: https://tomesphere.com/paper/1902.03904