O. O. Ivanov, P. M. Prysiazhniuk, L. G. Bodrova, G. M. Kramar, S. Yu. Marynenko, I. V. Koval, O. Ya. Guryk
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引用次数: 0
摘要
研究了基于 Fe-Ti-Mo-B-C 系统的沉积层结构。开发了一种对 Fe(Mo,B)2 相晶粒进行三维建模的方法,包括四个阶段。Blender 软件用于三维建模,Image Pro Plus 软件用于图像分析和测量。结果表明,在 Fe-Ti-Mo-B-C 沉积过程中,主要的强化 Fe(Mo, B)2 相是在 TiC 晶粒周围形成的,而 TiC 晶粒则起着改性剂的作用。
3D Modeling of the Structure of Deposited Materials Based on Fe–Ti–Mo–B–C System
The structure of deposited layer based on the Fe–Ti–Mo–B–C system is investigated. A methodology for 3D modeling of the Fe(Mo, B)2 phase grain, which includes four stages, was developed. Blender software was used for 3D modeling, and the Image Pro Plus software was used for image analysis and measurements. The results show that in the Fe–Ti–Mo–B–C deposition, the main strengthening Fe(Mo, B)2 phase was formed around TiC grains, which act as modifiers.
期刊介绍:
Materials Science reports on current research into such problems as cracking, fatigue and fracture, especially in active environments as well as corrosion and anticorrosion protection of structural metallic and polymer materials, and the development of new materials.
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