Abstract

The microstructure of samples of austenitic stainless steel and Al-Si alloy, obtained by the wire based additive method under various conditions was investigated. The effect of the beam current, the deposition intervals and the electron beam post-processing on the microstructure is shown.

Highlights

  • The microstructure of samples of austenitic stainless steel and Al-Si alloy, obtained by the wire based additive method under various conditions was investigated

  • The effect of the beam current, the deposition intervals and the electron beam post-processing on the microstructure is shown

  • On the impact of additive manufacturing on microstructural and mechanical properties of stainless steel and Ni-base alloys // BHM Berg-und Hüttenmännische Monatshefte 2017, Vol 162(5), pp

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Summary

Introduction

The microstructure of samples of austenitic stainless steel and Al-Si alloy, obtained by the wire based additive method under various conditions was investigated. Additive manufacturing, heat cycling, stainless steel, Al-Si alloy, microstructure. Для изучения особенностей структурообразования при электронно-лучевой послойной наплавке в качестве исходного материала использовали проволоку диаметром 1,2 мм из нержавеющей стали аустенитного класса.

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