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Author Ishigaki, Takamasa ♦ Fan, Xiaobao
Source SpringerLink
Content type Text
Publisher Springer-Verlag
File Format PDF
Copyright Year ©2001
Language English
Subject Domain (in DDC) Natural sciences & mathematics ♦ Chemistry & allied sciences
Subject Keyword boron-Mo$_{5}$Si$_{3}$ composite ♦ induction plasma spraying ♦ MoSi$_{2}$ ♦ oxidation resistance ♦ Surfaces and Interfaces, Thin Films ♦ Tribology, Corrosion and Coatings ♦ Materials Science ♦ Characterization and Evaluation of Materials ♦ Operating Procedures, Materials Treatment ♦ Analytical Chemistry
Abstract Induction plasma-spray processing was used to produce free-standing parts of Mo$_{5}$Si$_{3}$-B composite and MoSi$_{2}$ materials. The oxidation resistance, up to 1210 °C, of the Mo$_{5}$Si$_{3}$-B composite was compared with MoSi$_{2}$, which is known to be resistant to high-temperature oxidation. The deposits were oxidized isothermally in air at atmospheric pressure. The structural performance of these materials under high-temperature oxidation conditions was found to depend on the boron content in the specimens. In particular, the composite containing 2 wt.% boron exhibited excellent resistance to oxidation, as indicated by the specimen mass change, which was found to be near zero after the 24 h oxidation test.
ISSN 10599630
Age Range 18 to 22 years ♦ above 22 year
Educational Use Research
Education Level UG and PG
Learning Resource Type Article
Publisher Date 2001-01-01
Publisher Place New York
e-ISSN 15441016
Journal Journal of Thermal Spray Technology
Volume Number 10
Issue Number 4
Page Count 7
Starting Page 611
Ending Page 617


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Source: SpringerLink