Cryo-Treated Blanking Punch Life Improvement Analysis

Engineering Educator: Courses Pub Date : 2020-10-31 DOI:10.31033/ijemr.10.5.21

M. Dhobe

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引用次数: 1

Abstract

Cryogenic treatment is a secondary process to traditional heat treatment used for improving the hardness and wear resistance of tool steels. Though the potential use of cryogenic treatment on AISI D2 tool steel under laboratory conditions has been well established by the researchers, it is essential to do the analysis to ensure its sustainable use for industrial application. Therefore, impact of cryogenic treatment on AISI D2 steel blanking punch was evaluated in terms of increase in production rate and its life. The cryogenically treated D2 tool steel punches were used and subjected to manufacture the control levers using blanking operations. The improved wear resistance of cryogenically treated punch resulted in increase in production and punch life more than 200%. Punch life was studied and correlated to increase in production & wear behavior of blanking punch. The AISI D2 steel samples were prepared and subjected to laboratory tests comprising of metallographic observations and hardness. It was found that laboratory tests were not enough to predict improvements in mechanical properties. The mechanism responsible for augmented wear resistance by cryogenic treatment was the conversion of retained austenite to martensite and precipitation of new secondary carbides.

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冷处理冲裁冲头寿命改进分析

深冷处理是传统热处理之后用于提高工具钢硬度和耐磨性的二次加工。虽然研究人员已经确定了在实验室条件下对AISI D2工具钢进行低温处理的潜在用途，但为了确保其在工业应用中的可持续使用，进行分析是必不可少的。因此，从提高生产率和寿命两方面评价了低温处理对AISI D2钢冲裁冲床的影响。使用低温处理的D2工具钢冲头，并使用下料操作制造控制杆。经低温处理的冲床耐磨性得到改善，冲床产量和寿命提高200%以上。研究了冲裁冲头寿命与冲裁冲头产量和磨损性能的关系。制备了AISI D2钢样品，并进行了包括金相观察和硬度的实验室测试。人们发现，实验室试验不足以预测机械性能的改善。低温处理增强耐磨性的机理是残余奥氏体向马氏体的转化和新的次生碳化物的析出。

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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Engineering Educator: Courses

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