Interface microstructures in Ti-based composites using TiB2/C-coated and uncoated SiCf after short-term thermal exposure

J. H. Li; Z. X. Guo; P. S. Grant; M. L. Jenkins; B. Derby; B. Cantor

Interface microstructures in Ti-based composites using TiB2/C-coated and uncoated SiCf after short-term thermal exposure

J. H. Li, Z. X. Guo, P. S. Grant, M. L. Jenkins, B. Derby, B. Cantor

Research output: Contribution to journal › Article › peer-review

Abstract

The extent of interfacial reaction after short-term thermal exposure during vacuum plasma spraying (vps) and vacuum hot-pressing (vhp) of Ti-based metal-matrix composites (mmcs) using TiB2/C-coated and uncoated SiC fibres has been investigated by a combination of scanning and transmission electron microscopies. There is no interfacial reaction after short-term thermal exposure during vps manufacture of SiCf/Ti mmcs using either TiB2/C-coated or uncoated SiCf. There is only limited interfacial reaction after short-term thermal exposure during vhp manufacture of SiCf/Ti-6Al-4V mmcs using TiB2/C-coated SiCf. In the initial stage of the interfacial reaction, TiB needles are formed by preferential nucleation and growth at β particles and grain boundaries in the Ti-6Al-4V matrix. © 1994.

Original language	English
Pages (from-to)	887-890
Number of pages	3
Journal	Composites
Volume	25
Issue number	9
Publication status	Published - Oct 1994

Keywords

interface
silicon carbide fibres
thermal exposure
titanium-matrix composites

Cite this

@article{436038dd90cf4f7a8ab526183c1113a3,

title = "Interface microstructures in Ti-based composites using TiB2/C-coated and uncoated SiCf after short-term thermal exposure",

abstract = "The extent of interfacial reaction after short-term thermal exposure during vacuum plasma spraying (vps) and vacuum hot-pressing (vhp) of Ti-based metal-matrix composites (mmcs) using TiB2/C-coated and uncoated SiC fibres has been investigated by a combination of scanning and transmission electron microscopies. There is no interfacial reaction after short-term thermal exposure during vps manufacture of SiCf/Ti mmcs using either TiB2/C-coated or uncoated SiCf. There is only limited interfacial reaction after short-term thermal exposure during vhp manufacture of SiCf/Ti-6Al-4V mmcs using TiB2/C-coated SiCf. In the initial stage of the interfacial reaction, TiB needles are formed by preferential nucleation and growth at β particles and grain boundaries in the Ti-6Al-4V matrix. {\textcopyright} 1994.",

keywords = "interface, silicon carbide fibres, thermal exposure, titanium-matrix composites",

author = "Li, {J. H.} and Guo, {Z. X.} and Grant, {P. S.} and Jenkins, {M. L.} and B. Derby and B. Cantor",

year = "1994",

month = oct,

language = "English",

volume = "25",

pages = "887--890",

journal = "Composites",

issn = "0010-4361",

publisher = "Elsevier BV",

number = "9",

}

TY - JOUR

T1 - Interface microstructures in Ti-based composites using TiB2/C-coated and uncoated SiCf after short-term thermal exposure

AU - Li, J. H.

AU - Guo, Z. X.

AU - Grant, P. S.

AU - Jenkins, M. L.

AU - Derby, B.

AU - Cantor, B.

PY - 1994/10

Y1 - 1994/10

N2 - The extent of interfacial reaction after short-term thermal exposure during vacuum plasma spraying (vps) and vacuum hot-pressing (vhp) of Ti-based metal-matrix composites (mmcs) using TiB2/C-coated and uncoated SiC fibres has been investigated by a combination of scanning and transmission electron microscopies. There is no interfacial reaction after short-term thermal exposure during vps manufacture of SiCf/Ti mmcs using either TiB2/C-coated or uncoated SiCf. There is only limited interfacial reaction after short-term thermal exposure during vhp manufacture of SiCf/Ti-6Al-4V mmcs using TiB2/C-coated SiCf. In the initial stage of the interfacial reaction, TiB needles are formed by preferential nucleation and growth at β particles and grain boundaries in the Ti-6Al-4V matrix. © 1994.

AB - The extent of interfacial reaction after short-term thermal exposure during vacuum plasma spraying (vps) and vacuum hot-pressing (vhp) of Ti-based metal-matrix composites (mmcs) using TiB2/C-coated and uncoated SiC fibres has been investigated by a combination of scanning and transmission electron microscopies. There is no interfacial reaction after short-term thermal exposure during vps manufacture of SiCf/Ti mmcs using either TiB2/C-coated or uncoated SiCf. There is only limited interfacial reaction after short-term thermal exposure during vhp manufacture of SiCf/Ti-6Al-4V mmcs using TiB2/C-coated SiCf. In the initial stage of the interfacial reaction, TiB needles are formed by preferential nucleation and growth at β particles and grain boundaries in the Ti-6Al-4V matrix. © 1994.

KW - interface

KW - silicon carbide fibres

KW - thermal exposure

KW - titanium-matrix composites

M3 - Article

SN - 0010-4361

VL - 25

SP - 887

EP - 890

JO - Composites

JF - Composites

IS - 9

ER -

Interface microstructures in Ti-based composites using TiB2/C-coated and uncoated SiCf after short-term thermal exposure

Abstract

Keywords

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