Mechanical Properties of Particulate Reinforced Titanium-based Metal Matrix Composites Produced by the Blended Elemental P/M Route

Autor:	Nobuhiro Arimoto, Hirowo G. Suzuki, Satoshi Emura, Masuo Hagiwara, Yoshikuni Kawabe
Rok vydání:	1992
Předmět:	Materials science Mechanical Engineering Metals and Alloys Titanium alloy chemistry.chemical_element Titanium powder Carbon nanotube metal matrix composites chemistry Mechanics of Materials visual_art Powder metallurgy Ultimate tensile strength Materials Chemistry visual_art.visual_art_medium Ceramic Composite material Ductility Titanium
Zdroj:	ISIJ International. 32:909-916
ISSN:	0915-1559
DOI:	10.2355/isijinternational.32.909
Popis:	The titanium-based metal matrix composites (MMC) reinforced with relatively large-sized ceramic particulates have been produced by the blended elemental (BE) P/M route. The extra low chlorine titanium powder, Al3Ti master alloy powder, and FeB and Cr3C2 ceramic powders were used as starting materials. The dispersion of either TiB or TiC particulate reinforcements in the matrix were therefore made in situ during the sintering process. The distribution of particulate reinforcements in the matrix was reasonably random. Tensile tests were done at temperatures up to 923 K. It has been found that the tensile strength of these composites are superior to those of the unreinforced matrix alloys in the whole temperature ranged examined. The elastic modulus was also increased by the presence of these ceramic reinforcements. No ductility was found for both composites at room temperature, but some ductility was observed at temperatures above 623 K. These observations were interpreted in terms of the failure mechanisms observed using scanning electron microscopy.
Databáze:	OpenAIRE
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