预氮化钢上沉积Cr-Ni-N薄膜的力学性能

Materials Transactions Jim Pub Date : 2000-10-20 DOI:10.2320/MATERTRANS1989.41.1366

N. Yasumaru, Hiroyuki Magara, T. Ibe

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摘要

对304奥氏体不锈钢进行离子氮化处理，然后用Cr-Ni-N离子镀，其Ni含量从0at%到50at%不等。在预氮化钢表面涂覆CrN陶瓷膜，即使在重载下也表现出良好的耐磨性。在3 ~ 19 μm CrN膜中，10 μm CrN膜的磨损最小。含Ni的Cr-Ni-N薄膜由Cr*N和Ni的混合相组成。Cr*N是一种新发现的含Ni的氮化铬，已被鉴定为氟化碳结构。在预氮化钢表面涂覆镍含量为11%的Cr-Ni-N膜，其耐磨性在CrN膜和高镍含量Cr-Ni-N膜中表现最好。这种优异的耐磨性即使在薄膜厚度超过20 μm时也能保持，这与CrN薄膜的趋势不同。

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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Mechanical Properties of Cr–Ni–N Films Deposited on Pre-Nitrided Steels

Austenitic type 304 stainless steel was ion-nitrided and subsequently ion-plated with Cr-Ni-N whose Ni content was varied from 0 at% to 50at%. The ceramic film of CrN coated onto the pre-nitrided steel demonstrated good wear resistance even under a heavy load. Furthermore, a 10 μm thick CrN film exhibited the least wear among the 3 to 19 μm thick CrN films. The Cr-Ni-N films containing Ni were composed of mixed phases of Cr*N and Ni. Cr*N is a newly observed Cr nitride that may contain some Ni and has been identified as an f.c.t. structure. A Cr-Ni-N film with Ni content of 11 at% coated onto the pre-nitrided steel demonstrated the best wear resistance among the CrN film or Cr-Ni-N films with high Ni content. This superior wear resistance was maintained even at film thicknesses exceeding 20 μm, unlike the tendency of CrN film.

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Materials Transactions Jim

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