EFFECT RESEARCH OF SURFACE DEFORMATION IMPACT AND THERMAL TREATMENT AT MULTI-LAYER WELD DEPOSITION UPON MECHANICAL PROPERTIES AND POROSITY OF ALUMINUM ALLOY 1580-Reference-Cited by-同舟云学术

EFFECT RESEARCH OF SURFACE DEFORMATION IMPACT AND THERMAL TREATMENT AT MULTI-LAYER WELD DEPOSITION UPON MECHANICAL PROPERTIES AND POROSITY OF ALUMINUM ALLOY 1580

Published:2020-05-30 Issue:6 Volume:2020 Page:22-30
ISSN:1999-8775
Container-title:Bulletin of Bryansk state technical university
language:en
Short-container-title:

Author:

Kartashev Maksim¹,Panov Dmitriy,Mindibaev Maksim¹,Permyakov Gleb¹,Trushnikov Dmitriy¹

Affiliation:

1. Permskiy nacional'nyy issledovatel'skiy politehnicheskiy universitet

Abstract

The experimental research of mechanical properties and porosity of samples made of experimental high-strength magnesium-scandium aluminum alloy 1580 obtained through the method of multi-layer weld deposition including the application of deformation strengthening and also the further thermal treatment is carried out. There is investigated the impact of layer-by-layer deformation strengthening with the further thermal treatment upon mechanical properties and porosity of the samples of experimental high-strength aluminum alloy 1580 having magnesium-scandium during multi-layer weld deposition. There are shown the values of mechanical properties and porosity of samples subject to modes of deformation strengthening and thermal treatment. A possibility of the impact of deformation effect and thermal treatment upon porosity and mechanical properties of products made of aluminum alloys containing magnesium-scandium obtained during multi-layer SMT weld deposition is checked up. According to the results of the investigation there are drawn conclusions: it is determined that for porosity decrease in metal deposited there are required higher values of efforts of the deformation impact and a weld deposition mode selection excluding product over-heating influencing porosity of metal deposited; thermal treatment impact upon porosity of the metal deposited is not defined; the samples obtained with the use of deformation impact and long annealing with the duration more than six hours have higher mechanical properties.

Publisher

Bryansk State Technical University BSTU

Subject

General Earth and Planetary Sciences,General Environmental Science

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