Investigating the influence of high-speed machining with heat-assisted machining (HAM) on machinability of heat-treated SKD61 steel

T. Dong, Nguyen Duc Toan
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Abstract

This paper investigates the impact of high-speed machining with heat-assisted machining (HAM) on the machinability of heat-treated SKD61 steel, utilizing alloy cutting tools. The study encompasses microstructure analysis, mechanical properties evaluation, chip color examination, surface roughness assessment and cutting force measurement during the machining process. Experiments are conducted under controlled conditions with advanced equipment. Findings indicate that at 200°C and 350°C, SKD61 steel’s microstructure remains unchanged, while at 500°C, there’s a superficial alteration of approximately 0.05[Formula: see text]mm thickness. Material hardness remains consistent across temperatures. Unique chip color variations serve as temperature indicators. Cutting force consistently decreases with rising temperature, highlighting the intricate relationship between temperature, material behavior and cutting mechanics. Surface roughness improves with higher temperatures, emphasizing the potential benefits of HAM in precision manufacturing.
研究高速加工与热辅助加工(HAM)对热处理 SKD61 钢加工性的影响
本文利用合金切削工具,研究了热辅助加工(HAM)的高速加工对热处理 SKD61 钢加工性的影响。研究内容包括加工过程中的微观结构分析、机械性能评估、切屑颜色检查、表面粗糙度评估和切削力测量。实验是在受控条件下利用先进设备进行的。研究结果表明,在 200°C 和 350°C 时,SKD61 钢的微观结构保持不变,而在 500°C 时,则会出现厚度约为 0.05[计算公式:见正文]毫米的表面变化。材料硬度在不同温度下保持一致。独特的切屑颜色变化可作为温度指标。切削力随温度升高而持续减小,凸显了温度、材料特性和切削力学之间的复杂关系。表面粗糙度随着温度的升高而提高,凸显了 HAM 在精密制造中的潜在优势。
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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