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Phase and microstructure evolution in alkoxide-derived mullite/MgO-partially-stabilized zirconia

Journal Article · · Journal of the American Ceramic Society
;  [1];  [2]
  1. Univ. of Illinois, Urbana, IL (United States)
  2. Wright Lab., Wright-Patterson AFB, OH (United States)
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The microstructure and phase evolution of a mullite/MgO-partially-stabilized-zirconia alkoxide-derived composite was studied by XRD and TEM/EDS in samples hot pressed at 850 to 1,400 C for various periods of time. Upon hot pressing, Al-Si spinel, with a composition close to that of (2:1) mullite, crystallized at a temperature as low as 850 C. It converted to (3:2) mullite at temperatures above 1,200 C. Fine spherical metastable cubic-ZrO{sub 2} particles, uniformly distributed in the amorphous matrix, precipitated at T {approx} 850 C. They coarsened at higher temperatures and transformed to tetragonal or monoclinic ZrO{sub 2}, depending upon the grain size. These primary precipitates grew to become intergranular zirconia in the final structure. The solid solution of zirconia in mullite decreased with increasing temperature, so that secondary zirconia particles precipitated at higher temperatures and remained as inclusions inside mullite grains. Irregularly shaped elongated zircon was found at T {>=} 1,200 C. It decomposed at higher temperatures to form zirconia particles, which existed at the grain boundaries of the final mullite. Other phases found in hot-pressed samples included MgAl{sub 2}O{sub 4} spinel and sapphirine (2MgO {center_dot} 2Al{sub 2}O{sub 3} {center_dot} SiO{sub 2}). For powders heat treated in air, {gamma}-Al{sub 2}O{sub 3} (instead of Al-Si spinel) was formed at temperatures above 900 C. The {gamma} {r_arrow} {alpha}-Al{sub 2}O{sub 3} phase transformation occurred at T {>=} 1,300 C, followed by a rapid grain growth. In contrast with the hot-pressed samples, mullite in heat-treated powders crystallized only at temperatures above 1,400 C. Previous studies on phase evolution during pressureless heat treatment of powders were generally unindicative of phase and microstructural evolution upon hot pressing.

Sponsoring Organization:
USDOE
OSTI ID:
69629
Journal Information:
Journal of the American Ceramic Society, Journal Name: Journal of the American Ceramic Society Journal Issue: 5 Vol. 78; ISSN 0002-7820; ISSN JACTAW
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
COMPOSITE MATERIALS
GRAIN BOUNDARIES
GRAIN GROWTH
HOT PRESSING
MAGNESIUM OXIDES
MICROSTRUCTURE
MULLITE
PARTICULATES
PHASE STUDIES
PRECIPITATION
SOLID SOLUTIONS
SPINELS
TRANSMISSION ELECTRON MICROSCOPY
X-RAY DIFFRACTION
ZIRCONIUM OXIDES