Publication detail
Improvement of Model of Aluminium Alloys Behaviour for Application in Numerical Simulations of Welding
VANĚK, M. ŘIHÁČEK, J. MORAVEC, J.
English title
Improvement of Model of Aluminium Alloys Behaviour for Application in Numerical Simulations of Welding
Type
journal article in Scopus
Language
en
Original abstract
This article describes how to modify numerical solutions to enable more accurate prediction of the size of heat affected zones (HAZ) during welding of heat treatable aluminium alloys. The size of HAZ affects properties of a weld joint, such as e.g. hardness and strength, and it is also a factor on residual stress and deformation after welding depends. Welding experiments were performed using material EN AW-6082 to obtain input data for numerical simulations. Calibration thermo-metallurgical numerical analyses were performed using simulation software Sysweld, where data from the standard Sysweld material database were used. Subsequently, based on information from literature and data obtained during welding experiments, some changes of parameters in Leblonds formula (which describes metallurgical transformation in HAZ) were done. The results obtained with modified material database show that it is possible to perform numerical simulations of aluminium welding with significantly more accurate prediction of the size of the HAZ.
English abstract
This article describes how to modify numerical solutions to enable more accurate prediction of the size of heat affected zones (HAZ) during welding of heat treatable aluminium alloys. The size of HAZ affects properties of a weld joint, such as e.g. hardness and strength, and it is also a factor on residual stress and deformation after welding depends. Welding experiments were performed using material EN AW-6082 to obtain input data for numerical simulations. Calibration thermo-metallurgical numerical analyses were performed using simulation software Sysweld, where data from the standard Sysweld material database were used. Subsequently, based on information from literature and data obtained during welding experiments, some changes of parameters in Leblonds formula (which describes metallurgical transformation in HAZ) were done. The results obtained with modified material database show that it is possible to perform numerical simulations of aluminium welding with significantly more accurate prediction of the size of the HAZ.
Keywords in English
numerical simulations, Sysweld, welding, aluminium alloys, heat affected zone, hardness
Released
21.11.2016
Publisher
MM Science Journal
Location
Praha
ISSN
1805-0476
Volume
2016
Number
5
Pages from–to
1370–1375
Pages count
6
BIBTEX
@article{BUT131896,
author="Mojmír {Vaněk} and Jan {Řiháček},
title="Improvement of Model of Aluminium Alloys Behaviour for Application in Numerical Simulations of Welding",
year="2016",
volume="2016",
number="5",
month="November",
pages="1370--1375",
publisher="MM Science Journal",
address="Praha",
issn="1805-0476"
}