锂稳定β″-氧化铝的热压

Ceramurgia International Pub Date : 1979-04-01 DOI:10.1016/0390-5519(79)90031-0

A.V. Virkar, T.D. Ketcham , R.S. Gordon

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引用次数: 6

摘要

细粒度(& lt;5μm)，密度(3.26-3.27 g/cm3)，强度(>200 MN/m2)多晶β″-氧化铝(锂稳定)陶瓷可以在温度≥1330°C和压力在28和41 MN/m2之间通过真空热压制备。通过适当的低温退火(<1400°C)，可制备出细晶粒、高强度β″氧化铝体，且电阻低(<5欧姆-厘米在300°C)对钠离子传导。热压后直接获得较高的钠离子电阻率(6-11欧姆-cm)是由于致密化过程中未完全转化为β″-氧化铝而不是小晶粒尺寸。低温退火可以促进相转变，但防止任何明显的晶粒长大。热压法制备的高强度陶瓷可作为常规烧结所能达到的标准。

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Hot pressing of lithia-stabilized β″-alumina

Fine-grained (< 5μm), dense (3.26–3.27 g/cm³), and strong (> 200 MN/m²) polycrystalline β″-alumina (lithia-stabilized) ceramics can be fabricated by vacuum hot-pressing at temperatures ≥ 1330°C and pressures between 28 and 41 MN/m². By suitable low temperature annealing (< 1400°C), a fine-grained, high strength β″ alumina body can be fabricated with a low resistance (< 5 ohm-cm at 300°C) to sodium ion conduction. The relatively high sodium ion resistivities (6–11 ohm-cm) obtained directly after hot-pressing are caused by an incomplete phase conversion to β″-alumina during densification and not to a small grain size. Low temperature annealing can promote phase conversion and yet prevent any significant grain growth. The high strength ceramics produced by hot-pressing can serve as the standard to be achieved in conventional sintering.

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Ceramurgia International

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