Numerical and experimental study of temperature, residual stresses, and microstructural evolution on multi-layer and multi-pass laser cladding of 6061Al alloy

IF 1.8 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Weifeng Tang, Aoqi Liu, Chengyu Song and Li Zhou
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引用次数: 0

Abstract

Multi-layer and multi-pass laser cladding is a promising and important process for repairing and strengthening Al alloy parts, whereas the temperature and residual stresses have a great influence on the properties of the laser cladding layer. In this paper, a nonlinear transient thermo-mechanical coupling finite element model of multi-layer and multi-pass cladding of 6061Al alloy was established. Meanwhile, the DFLUX user subroutine was developed using Fortran code to define the movement of the three-dimensional heat source model. From there, the distribution and evolution of temperature and stresses at different times were investigated. In addition, the micro-morphology and micro-hardness after cladding were also analyzed in detail. The results show that both the maximum residual tensile and compressive stresses decrease with increasing the number of cladding passes. At the same time, due to the reheating effect of each cladding on the previous cladding, a few bubbles appear at the top, middle and bottom of the overlap surfaces. Moreover, the micro-hardness of the overlap surfaces decreases slightly. This study can provide a theoretical basis for further research into multi-layer and multi-pass laser cladding of 6061Al alloy.
6061Al 合金多层多道激光熔覆的温度、残余应力和微结构演变的数值与实验研究
多层多道激光熔覆是修复和强化铝合金零件的一种前景广阔的重要工艺,而温度和残余应力对激光熔覆层的性能有很大影响。本文建立了 6061Al 合金多层多道激光熔覆的非线性瞬态热机械耦合有限元模型。同时,使用 Fortran 代码开发了 DFLUX 用户子程序,以定义三维热源模型的运动。在此基础上,研究了温度和应力在不同时间的分布和演变。此外,还详细分析了包覆后的微观形貌和微观硬度。结果表明,最大残余拉应力和压应力都随着包覆次数的增加而减小。同时,由于每次堆焊对前一次堆焊的再加热效应,在重叠表面的顶部、中部和底部会出现一些气泡。此外,重叠表面的微硬度也略有下降。这项研究可为进一步研究 6061Al 合金的多层多道激光熔覆提供理论依据。
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来源期刊
Materials Research Express
Materials Research Express MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
4.50
自引率
4.30%
发文量
640
审稿时长
12 weeks
期刊介绍: A broad, rapid peer-review journal publishing new experimental and theoretical research on the design, fabrication, properties and applications of all classes of materials.
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