Forming mechanism of single-channel multilayer laser cladding Fe60 process under different laser heat source operating mode

Chang Li, Han Sun, Junjia Zhao, Xing Han
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Abstract

Continuous wave (CW) and pulsed wave are the two principal modes of operation used to control the laser heat source. Different laser heat source operating modes have an essential impact on the rapid cooling and heating temperature change rate during the cladding process, which directly determines the cladding layer quality. The laser cladding process is meaningful to quantitatively reveal the mechanism of single-channel multilayer cladding and forming under different laser heat source operating modes. In this article, a multi-field coupled 3D numerical model of the single-channel multilayer cladding process under different laser operating modes was proposed, and the thermal physical parameters of the cladding material were computed on the basis of Calculation of Phase Diagrams method. The mechanism of the impact of distinct operating modes on the multi-field coupled ephemeral evolution process of laser cladding was investigated by using the solid/liquid interface tracking technique, which comprehensively considers the light powder interaction between the powder waist beam and the laser beam under different operating modes. The temperature, flow, and stress fields were computationally solved for a single-channel multilayer cladding process. On the foundation of this study, the impact mechanism of pulse duty cycle and pulse frequency on the cladding behavior of single-channel and multilayers during pulsed laser cladding were dissected. The macroscopic morphology and microstructure of the cladding layer were observed by KEYENCE VH-Z100R ultra-deep field electron microscope, and the feasibility of the model was confirmed. This study provides a significant theoretical rationale for enhancing the cladding quality under different laser operating modes.
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不同激光热源工作模式下单通道多层激光熔覆 Fe60 工艺的成型机理
连续波(CW)和脉冲波是用于控制激光热源的两种主要工作模式。不同的激光热源工作模式对熔覆过程中快速冷却和加热的温度变化率有着至关重要的影响,直接决定了熔覆层的质量。定量揭示不同激光热源工作模式下单通道多层熔覆成型的机理,对激光熔覆过程的研究具有重要意义。本文提出了不同激光工作模式下单通道多层熔覆过程的多场耦合三维数值模型,并基于相图计算方法计算了熔覆材料的热物理参数。采用固/液界面跟踪技术,综合考虑了不同工作模式下粉腰束与激光束之间的光粉相互作用,研究了不同工作模式对激光熔覆多场耦合历时演化过程的影响机理。计算求解了单通道多层熔覆过程的温度场、流动场和应力场。在此基础上,剖析了脉冲占空比和脉冲频率对脉冲激光熔覆过程中单通道和多层熔覆行为的影响机理。利用 KEYENCE VH-Z100R 超深场电子显微镜观察了包层的宏观形貌和微观结构,证实了模型的可行性。这项研究为在不同激光工作模式下提高包层质量提供了重要的理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.70
自引率
8.30%
发文量
166
审稿时长
3 months
期刊介绍: The Journal of Materials: Design and Applications covers the usage and design of materials for application in an engineering context. The materials covered include metals, ceramics, and composites, as well as engineering polymers. "The Journal of Materials Design and Applications is dedicated to publishing papers of the highest quality, in a timely fashion, covering a variety of important areas in materials technology. The Journal''s publishers have a wealth of publishing expertise and ensure that authors are given exemplary service. Every attention is given to publishing the papers as quickly as possible. The Journal has an excellent international reputation, with a corresponding international Editorial Board from a large number of different materials areas and disciplines advising the Editor." Professor Bill Banks - University of Strathclyde, UK This journal is a member of the Committee on Publication Ethics (COPE).
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