Establishing multilayered coating on Mo–12Si–8.5 B alloy by Si pack cementation and its oxidation behavior at 900°C–1300°C

Materials and Corrosion Pub Date : 2021-06-30 DOI:10.1002/maco.202012146

Juan Wang, Bin Li, Ruihong Li, Xuan Chen, Guojun Zhang

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Abstract

A multilayered oxidation protection coating consisting of MoSi2 outer layer, Mo5Si3 internal layer, and Mo5SiB2/MoB inner layer was developed on the surface of Mo–12Si–8.5B 1.0 wt% ZrB2 alloy via Si pack cementation. The multilayered coating significantly enhanced the oxidation resistance of the alloy at 900°C, 1100°C, and 1300°C in the air by exhibiting negligible oxidation recession. MoSi2 outer layer provided admirable oxidation protection for the alloy at high temperatures by forming a thin and protective SiO2‐rich glass scale on its surface. This was supplemented by the Mo5Si3 internal layer and Mo5SiB2/MoB inner layer that reduced the thermal expansion mismatch between the MoSi2 outer layer and substrate, and therefore no obvious cracks were found in the MoSi2 outer layer. More importantly, the Mo5SiB2/MoB layer as an in situ barriers of Si interdiffusion ensured the stable existence of MoSi2 and Mo5Si3 layers without obvious thickness change during oxidation at 900°C and 1100°C. Mechanical property test indicated that the formation of the coating layers could not affect the fracture toughness of the alloy.

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在Mo-12Si-8.5 B合金上建立Si包渗层及其900℃- 1300℃氧化行为

在mo - 12si - 8.5 b1.0 wt% ZrB2合金表面通过Si包渗法制备了由MoSi2外层、Mo5Si3内层和Mo5SiB2/MoB内层组成的多层氧化防护涂层。在900°C、1100°C和1300°C的空气中，多层涂层显著提高了合金的抗氧化性，而氧化衰退可以忽略不计。MoSi2外层通过在合金表面形成薄而保护性的富含SiO2的玻璃层，在高温下为合金提供了良好的氧化保护。Mo5Si3内层和Mo5SiB2/MoB内层作为补充，减少了MoSi2外层与衬底之间的热膨胀失配，因此在MoSi2外层没有发现明显的裂纹。更重要的是，在900℃和1100℃氧化过程中，Mo5SiB2/MoB层作为Si相互扩散的原位屏障，保证了MoSi2和Mo5Si3层的稳定存在，没有明显的厚度变化。力学性能试验表明，涂层的形成对合金的断裂韧性没有影响。

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Materials and Corrosion

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