Microstructural Investigation of Particulate Reinforced Ti-Sn Metal Matrix Composites

机译：颗粒增强Ti-Sn金属基复合材料的显微组织研究

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Titanium alloy is an attractive material for aerospace and automobile applications due to its lightweight and high strength. Titanium metal matrix composite (MMCs) is one of the promising materials which could be employed to enhance stiffness and wear resistance of titanium alloy. In this study, reinforcement of in-situ and ex-situ particulates has been investigated. The experimental results show that a dense microstructure with uniformly distributed in-situ TiB reinforcement phase in the Ti+B+Sn system could be obtained. It is present in either needle or blocky shape. This process involved warm pressing of mixed powder in semi-solid stage followed by sintering, which eliminated costly CIP and HIP processes. However, it is found that the ex-situ particulates in the titanium metal matrix are not suitable as reinforcements in Ti-Sn metal matrix as they either reacted with titanium during sintering process or generated a void at the interface between the reinforcement and the matrix.

机译：钛合金轻巧，强度高，因此是航空航天和汽车应用中有吸引力的材料。钛金属基复合材料（MMCs）是可用于增强钛合金刚度和耐磨性的有前途的材料之一。在这项研究中，对原位和异位颗粒的增强进行了研究。实验结果表明，可以获得在Ti + B + Sn体系中具有均匀分布的原位TiB增强相的致密微观结构。它以针状或块状存在。此过程涉及在半固态阶段对混合粉末进行热压，然后进行烧结，从而消除了昂贵的CIP和HIP过程。然而，发现钛金属基体中的异位颗粒不适合作为Ti-Sn金属基体中的增强物，因为它们在烧结过程中与钛反应或在增强物和基体之间的界面处产生空隙。

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《Symposium S; International Conference on Materials for Advanced Technologies(ICMAT 2005); International Union of Materials Research Societies International Conference on Advanced Materials(IUMRS-ICAM 2005); 20050703-08; 20050703-08; Singapore(SG); Singap》|2005年|35-38|共4页
会议地点 Singapore(SG);Singapore(SG)
作者
S. X. Zhang; Q. F. Li; M. K. Ho; S. F. Pook; M. Chandra; M. S.Yong;
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作者单位

Singapore Institute of Manufacturing Technology 71 Nanyang Drive, Singapore 638075;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
titanium alloy; semi-solid; titanium metal matrix;

机译：钛合金半固体钛金属基体;

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1. Microstructural Investigation of Particulate Reinforced Ti-Sn Metal Matrix Composites [J] . S. X. Zhang, Q. F. Li, M. K. Ho, Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2006,第0期

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4. Microstructural Investigation of Particulate Reinforced Ti-Sn Metal Matrix Composites [C] . S. X. Zhang, Q. F. Li, M. K. Ho, International Conference on Materials for Advanced Technologies . 2006

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5. Effects of aging on fracture behavior in aluminum matrix particulate reinforced metal matrix composites. [D] . Park, Jong-kook. 1996

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7. Microstructural Investigation of Particulate Reinforced Ti-Sn Metal Matrix Composites [O] . S. X. Zhang, Q. F. Li, M. K. Ho, 2015

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Microstructural Investigation of Particulate Reinforced Ti-Sn Metal Matrix Composites

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