Microstructural characterization of ZrB2–SiC–Si–MoSi2–WC coatings applied by SPS on graphite substrate

Mehran Jaberi Zamharir, Mohammad Zakeri, Zahra Jahangiri, Ahad Mohammadzadeh
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Abstract

The aim of this research was to apply a protective composite coating made of ultra-high temperature ceramics (UHTCs) on the graphite substrates. The spark plasma sintering (SPS) method was used to apply this coating on the graphite substrate. First, efforts were made to choose the right chemical composition for the composite material of the coating and the sintering conditions (temperature, pressure, and holding time) for applying the coating. Then, single-layer coatings with the basic composition of ZrB2–SiC–Si with WC and MoSi2 additives in equal amounts of 1.25 and 3.75 vol% of each were successfully applied on the graphite substrates under sintering conditions of 1875±25 °C final temperature, 10 MPa initial pressure, 25 MPa final pressure and 5 min holding time. The presence of the Si element in the basic composition of these coatings, in addition to helping to form an intermediate diffusion layer at the interface between the composite coating and the graphite substrate, caused the strengthening of the joining despite the difference in the coefficient of thermal expansion between the graphite and the composite coating.
SPS在石墨基体上喷涂ZrB2-SiC-Si-MoSi2-WC涂层的微观组织表征
本研究的目的是在石墨基底上应用一种由超高温陶瓷(UHTCs)制成的保护性复合涂层。采用火花等离子烧结(SPS)方法在石墨基体上涂覆该涂层。首先,为涂层的复合材料选择合适的化学成分和涂层的烧结条件(温度、压力和保温时间)。在烧结温度为1875±25℃,初始压力为10 MPa,最终压力为25 MPa,保温时间为5 min的条件下,以ZrB2-SiC-Si为基本成分,WC和MoSi2添加量分别为1.25 vol%和3.75 vol%的情况下,成功地将单层涂层涂在石墨基体上。Si元素在这些涂层的基本成分中的存在,除了有助于在复合涂层和石墨基体之间的界面形成中间扩散层外,还导致了连接的加强,尽管石墨和复合涂层之间的热膨胀系数不同。
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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