合金 PM 钢部件烧结过程中的脱碳和气体形成

Peter Quadbeck, Alexander Strauß, Thomas Weißgärber
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摘要

本研究调查了粉末冶金钢合金(CrM、CrL、AHC、Mo85、SintD 35)和非合金钢在纯氢气氛中烧结时的脱脂、还原和脱碳过程。利用原位傅立叶变换红外气相分析法,对使用乙烯双硬脂酸酰胺(EBS)作为润滑剂的部件进行了分析。EBS 在钢部件中分解产生 CO、CO2、H2O 和 CH4,在 230 °C 至 480 °C 范围内观察到主要的 CH 基团。在 750 °C 至 850 °C 的温度范围内,由于表面铁氧化物的还原,预计会产生 CO,但却出现了 CH4,这表明在预合金粉末中也会出现 "内部获得者效应"。此外,在碳活性较高的情况下,内部铁氧化物的还原和铬氧化物的还原也会引发内部脱碳效应。根据碳势的不同,这些过程会导致粉末冶金成分的碳含量大幅降低。因此,这项研究表明,粉末冶金部件在 100 pct 氢气环境中烧结前的热处理阶段中的脱碳过程不是由于脱润滑机制,而是由于碳热还原机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Decarburization and Gas Formation During Sintering of Alloyed PM Steel Components

Decarburization and Gas Formation During Sintering of Alloyed PM Steel Components

This study investigates the delubrication, reduction, and decarburization processes of powder metallurgical steel alloys (CrM, CrL, AHC, Mo85, SintD 35) and an unalloyed steel during sintering in a pure hydrogen atmosphere. Utilizing in-situ FTIR gas phase analysis, components with ethylenebisstearamide (EBS) as a lubricant are analyzed. EBS decomposition in steel components yields CO, CO2, H2O, and CH4, with dominant CH groups observed in the 230 °C to 480 °C range. In the temperature range between 750 °C and 850 °C, where CO formation is expected due to the reduction of surface iron oxides, CH4 is present instead, indicating that an “internal getter effect” also occurs in pre-alloyed powders. In addition, with high carbon activity, the reduction of internal iron oxides and the reduction of chromium oxides also trigger an internal getter effect. Depending on the carbon potential, these processes cause a considerable reduction in the carbon content of the powder metallurgical components. The study therefore shows that the decarburization of powder metallurgical components during the heat treatment phases prior to sintering in a 100 pct hydrogen atmosphere is less due to the mechanism of delubrication, but rather to mechanisms of carbothermal reduction.

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