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Effects of Yttrium on the Sintering and Microstructure of Alumina–Silicon Carbide “Nanocomposites” (2005)

Cock, Alex M. ; Shapiro, Ian P. ; Todd, Richard I. ; [et al.]

Oxford, UK : Blackwell Science Inc

Journal of the American Ceramic Society 88 (2005), S. 0

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ISSN: 1551-2916

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Notes: Alumina and alumina-based “nanocomposites” with 2 and 5 vol% silicon carbide and varying amounts of yttria (0–1.5 wt%) have been prepared by pressureless sintering in the temperature range 1450°–1650°C. The effects of composition and sintering temperature on density and microstructure are reported. Yttria inhibited sintering in alumina, but enhanced the sinterability of the nanocomposites. It also induced abnormal grain growth in both alumina and nanocomposites, but strongly bimodal grain size distributions could be prevented by careful choice of the composition and the sintering temperature. Fully dense (〉99%), fine-grained alumina–5 vol% SiC–1.5 wt% yttria nanocomposites were produced from uniaxially pressed powders with a yttria content of 1.5 wt% and a sintering temperature of 1600°C. Reasons for this behavior are discussed, and it is suggested that the enhancement of sintering in the alumina–SiC materials is because of the reaction of silica on the surface of the silicon carbide particles with alumina, yttria, and possibly magnesia, modifying the grain boundary composition, resulting in enhanced grain boundary diffusion. scanning transmission electron microscopy/energy-dispersive X-ray data show that such co-segregation does occur in the yttria-containing nanocomposites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1551-2916.2005.00443.x

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Microstructure-Property Relationships in Wear Resistant Alumina/SiC "Nanocomposites" (2006)

Todd, Richard I. ; Limpichaipanit, Apichart

s.l. ; Stafa-Zurich, Switzerland

Advances in science and technology Vol. 45 (Oct. 2006), p. 555-563

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ISSN: 1662-0356

Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008

Topics: Natural Sciences in General , Technology

Notes: Alumina/SiC “nanocomposites” consist of a dispersion of SiC “nanoparticles” in analumina matrix with conventional grain size. The nanocomposites are much more resistant to severewear than pure alumina and this paper explores the mechanisms responsible by examiningmicrostructure-property relationships. Results correlating (i) microstructure, (ii) wear rate in asimple abrasive wear test and (iii) quantitative analysis of the appearance of the worn surfaces, arepresented. The results show that the reduction in wear rate caused by the SiC is a consequence ofthe reduction in surface pullout by brittle fracture only. For small volume fractions ([removed info] 5vol%), themain effect of the SiC additions is to reduce the dimensions (diameter, depth) of the individualpullouts. This is suggested to be a consequence of the change in fracture mode from intergranular inalumina to transgranular in the nanocomposites. For greater additions of SiC nanoparticles(10vol%), the brittle fracture responsible for the cracking is also suppressed, and it is proposed thatthis is a consequence of the blocking of the formation of the long twins or dislocation pileups thatare thought to be responsible for crack initiation by intragranular SiC particles (i.e. a form of sliphomogenisation)