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Influence of laser machining process on the ablation amount and organizational properties of cemented carbide

硬质合金 机械加工 激光烧蚀 材料科学 激光器 碳化物 烧蚀 过程(计算) 冶金 光学 计算机科学 工程类 物理 操作系统 航空航天工程
作者
Quan Wan,Xueyuan Tang,Jikai Yi,Weizhe Zhong,Shucai Yang
出处
期刊:International Journal of Refractory Metals & Hard Materials [Elsevier BV]
卷期号:129: 107129-107129 被引量:1
标识
DOI:10.1016/j.ijrmhm.2025.107129
摘要

Laser processing technology, with its non-contact, high-precision characteristics, has brought new hope for the processing of cemented carbide tools, and greatly expanded the application potential of cemented carbide. But there is a lack of research on the mechanism of laser ablation and material evolution of cemented carbide materials. This study examines the factors that influence the amount of ablation through two-factor experiments. Two laser machining processes, namely the Variable Parameter Indexing Alternate Machining (VPIAM) process and the Laser Enhanced Preparation Machining (LEPM) process,are proposed and compared to the conventional Unidirectional Continuous Ablation Machining (UCAM) process. To investigate the effects of the three processes on cemented carbide, comparative analyses of ablation amount, organizational properties, surface morphology , and surface roughness of the materials were performed under the three machining processes, and the relevant mechanisms were summarized. In this study, the power, pulse overlap rate, and line overlap rate of laser processing were regulated, and the experimental data were integrated. The results showed that the backfill effect occurs under the remelting and slag deposition effects, and the amount of material ablation under UCAM is small. The VPIAM technique effectively reduces the hindrance of slag and remelting during the ablation process by integrating slag removal and indexing processing. The increase in material ablation can range from 13.07 to 60.2 um, with a growth rate of 236–628 %. Using the LEPM process, the remelted layer undergoes several laser shocks, resulting in the total elimination of micro-cracks. Furthermore, the material particles within the reinforced layer undergo a refinement process, and some of these particles form bonds with the remelted layer. The layer reinforced with material exhibits a higher degree of uniformity and straightness, enhancing the surface characteristics of the processed material to some extent. • Through comparative analysis of ablation amount,organizational properties, surface morphology and surface roughness of the materials, it is verified that the VPIAM process can reduce the hindrance effect of slag and remelting on the ablation process. • Due to multiple laser shock processing, the LEPM process is able to significantly improve the surface properties of the processed material.
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