Spraying wear-resistant coatings from clad powders TiB2/Ti and HfB2/Ti

Izvestiya. Ferrous Metallurgy Pub Date : 2023-02-20 DOI:10.17073/0368-0797-2023-1-27-34

M. E. Goshkoderya, T. Bobkova, S. P. Bogdanov, A. V. Krasikov, M. Staritsyn, A. A. Kashirina

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Abstract

The present work considers the results on synthesis of composite clad powder systems with the “core-shell” type of structure for spraying wear-resistant metal-ceramic coatings. Powders of highly hard TiB2 and HfB2 borides were used as a core for the synthesis of a composite powder, and titanium was used to create coating on their surface. The cladding layer is synthesized by the iodine transport method. Powder cladding uses the method of detecting one component on another gas transport path, the agent of which is contact iodine. The deposition of composite clad powders of the TiB2 /Ti and HfB2 /Ti systems is implemented by the microplasma method, which, in contrast to the classical plasma deposition, makes it possible to dissolve transformations in composite powders due to thermal action. In the study of transverse microsections of sprayed coatings, it was found that during microplasma spraying, titanium is saturated with oxygen, forming a titanium dioxide phase, as a result of which the clad composite powder of systems TiB2 /Ti and HfB2 /Ti are converted into coatings from systems TiB2 (TiB)/Ti(TiO2 ) and HfB2 /Ti(TiO2 ). Features of the composition in terms of coating thickness were revealed. The study of hardness shows that the integral value of microhardness for a coating based on titanium diboride is 1300 HV. Coating based on hafnium diboride has integral microhardness of about 1600 HV. When checking the wear resistance, pairs with TiB2 (TiB)/Ti(TiO2 ) and HfB2 /Ti(TiO2 ) coatings were mated with a counterbody from the 45Kh sample without coatings and together with each other. Despite the lower microhardness, the most wear-resistant is coating of TiB2 (TiB)/Ti(TiO2 ) system.

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TiB2/Ti和HfB2/Ti复合粉末喷涂耐磨涂层

本工作考虑了“核-壳”结构复合包层粉末体系的合成结果，用于喷涂耐磨金属陶瓷涂层。以高硬度的TiB2和HfB2硼化物粉末为核心制备复合粉末，并用钛在其表面形成涂层。包层采用碘输运法合成。粉末包覆采用在另一种气体传输路径上检测一种成分的方法，其介质为接触碘。采用微等离子体沉积方法制备了TiB2 /Ti和HfB2 /Ti复合包层粉末，与传统的等离子体沉积方法不同，该方法可以溶解复合粉末中由于热作用而产生的相变。通过对喷涂涂层横向显微切片的研究发现，在微等离子喷涂过程中，钛被氧气饱和，形成二氧化钛相，TiB2 /Ti和HfB2 /Ti体系的包覆复合粉末由TiB2 (TiB)/Ti(TiO2)和HfB2 /Ti(TiO2)体系转化为涂层。揭示了该组合物在涂层厚度方面的特征。硬度研究表明，二硼化钛涂层显微硬度的积分值为1300 HV。二硼化铪涂层的整体显微硬度约为1600hv。在测试耐磨性时，将TiB2 (TiB)/Ti(TiO2)涂层和HfB2 /Ti(TiO2)涂层对与45Kh样品中未涂层的对位体配对，并将其放在一起。尽管显微硬度较低，但最耐磨的是TiB2 (TiB)/Ti(TiO2)体系涂层。

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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Izvestiya. Ferrous Metallurgy

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