INFLUENCE OF HEAT TREATMENT AND DIFFERENT CUTTING CONDITIONS ON THE MACHINABILITY IN ADDITIVE-SUBTRACTIVE PROCESSING

IF 0.6 Q4 ENGINEERING, MECHANICAL

MM Science Journal Pub Date : 2023-11-15 DOI:10.17973/mmsj.2023_11_2023118

J. Steiner-Stark, M. Zimmermann, J. Platz, B. Kirsch, J. C. Aurich

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引用次数: 0

Abstract

For many applications, the surface quality, geometric accuracy and stress state of parts produced using laser-based powder bed fusion (PBF-LB) are insufficient. A stress relief and machining as post-processing operations allow to overcome these issues. PBF-LB materials have a unique microstructure. Their machinability therefore differs from that of cast or wrought materials. The microstructure can be altered by a stress relief heat treatment, which can change the machinability further. In this paper, the machinability of AlSi10Mg parts in the as-built condition and stress relieved condition is examined when wet and dry peripheral milling with cutting speeds up to 1,000 m/min. The PBF-LB parts were manufactured in different build-up directions. The stress relief decreased the material microhardness by approximately 16 %. This lower microhardness did not significantly affect the process forces but influenced the surface characteristics. The best surface quality was achieved when milling with the highest considered cutting speed of 1,000 m/min and when using metalworking fluids. Particularly the number of surface defects such as the smearing of material could thus be reduced. For the as-built conditions, good surface qualities can be achieved in dry cutting with high cutting speeds.

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加减加工中热处理及不同切削条件对可加工性的影响

在许多应用中，使用激光粉末床熔合(PBF-LB)生产的零件的表面质量、几何精度和应力状态不足。应力消除和加工作为后处理操作允许克服这些问题。PBF-LB材料具有独特的微观结构。因此，它们的可加工性不同于铸造或锻造材料。通过应力消除热处理可以改变显微组织，从而进一步改变可加工性。在切削速度为1000m /min的情况下，研究了AlSi10Mg零件在原状状态和去应力状态下的湿式和干式外铣削加工性能。PBF-LB部件以不同的组装方向制造。应力消除使材料的显微硬度降低了约16%。较低的显微硬度对加工力没有显著影响，但对表面特性有影响。在考虑的最高切削速度为1000 m/min和使用金属加工液时，可以获得最佳的表面质量。特别是表面缺陷的数量，如材料的涂抹，因此可以减少。在现有条件下，高切削速度的干式切削可以获得良好的表面质量。

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

MM Science Journal ENGINEERING, MECHANICAL-

CiteScore

1.30

自引率

42.90%

发文量