不同烧结条件对Co-Cr金属激光粉末微观结构特征的影响

Q4 Materials Science

International Journal of Microstructure and Materials Properties Pub Date : 2020-01-21 DOI:10.1504/ijmmp.2020.10026339

G. Pekkan, E. Taşçi, K. Pekkan, Murat Ispalarli

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引用次数: 0

摘要

钴铬合金已在牙科中使用多年。近年来，通过金属激光烧结法由钴铬合金制备修复体已得到广泛应用。这种方法是粉末冶金和三维打印技术的结合。材料的表面微观结构以及烧结和热处理后在材料表面上形成的不同相是极其重要的，因为在固定修复牙科中，这些金属亚结构与牙科陶瓷成层。本研究采用X射线衍射仪（XRD）、扫描电子显微镜（SEM）和能谱仪（EDX）对采用直接金属激光烧结（DMLS）方法制备的Co-Cr合金样品和在不同大气条件下烧结的样品进行了表征。观察到在不同的大气条件下用不同的方法烧结会影响XRD相强度。在氩气气氛中的烧结产生了更显著的相分离，这有助于在XRD图案中识别不同的相。

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Effect of different sintering conditions on microstructural characterisation of Co-Cr metal laser powder

Co-Cr alloys have been used for many years in dentistry. In recent years, the fabrication of prosthetic restorations from Co-Cr alloys by metal laser sintering method has become widespread. This method is a combination of powder metallurgy and three-dimensional printing technologies. The surface microstructure of the material and the different phases formed on the surface of the material after sintering and heat treatment are extremely important since these metal substructures are layered with dental porcelain in fixed prosthetic dentistry. In this study, characterisation of Co-Cr alloy samples produced by direct metal laser sintering (DMLS) method and sintering under various atmospheric conditions were performed with X-ray diffractometer (XRD), scanning electron microscope (SEM) and energy-dispersive X-ray diffractometer (EDX). It was observed that sintering with different methods under various atmospheric conditions affected the XRD phase intensities. The sintering in the argon gas atmosphere yielded a more significant phase separation that facilitates the identification of different phases in XRD patterns.

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来源期刊

International Journal of Microstructure and Materials Properties Materials Science-Materials Science (all)

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： IJMMP publishes contributions on mechanical, electrical, magnetic and optical properties of metal, ceramic and polymeric materials in terms of the crystal structure and microstructure. Papers treat all aspects of materials, i.e., their selection, characterisation, transformation, modification, testing, and evaluation in the decision-making phase of product design/manufacture. Contributions in the fields of product, design and improvement of material properties in various production processes are welcome, along with scientific papers on new technologies, processes and materials, and on the modelling of processes.