Sintering characteristics of porcelain

Ceramurgia International Pub Date : 1978-10-01 DOI:10.1016/0390-5519(78)90029-7

E.M.H. Sallam , A.C.D. Chaklader

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引用次数: 4

Abstract

Sintering experiments in the temperature range 1050° to 1300°C using a eutectic glass (as present in a triaxial porcelain) and several constituents in porcelain compositions indicate that shrinkage behaviour of porcelain is primarily controlled by the reaction between glass (or felspar) and clay components. An equation to predict the relationship between the relative density change and shrinkage has been developed, which is based on the liquid phase formation on particles and migration of liquid from the neck regions to the void space. The predicted relationship $Δ L L_{0} = 4π 9β$ $(1 ϕ_{0} − 1 ϕ)$ (where β is a geometric constant and calculable) fitted the data well. The mechanism of densification appears to change with temperature - initially controlled by reaction then followed by precipitation. The calculated apparent activation energy during the second stage (∼ 60 Kcal/mole) is about half of that obtained by previous workers.

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陶瓷的烧结特性

在1050°C至1300°C的温度范围内，使用共晶玻璃(如存在于三轴瓷中)和瓷器成分中的几种成分进行烧结实验表明，瓷器的收缩行为主要由玻璃(或长石)和粘土成分之间的反应控制。建立了基于颗粒形成液相和液体从颈部向空隙空间迁移的相对密度变化与收缩关系的方程。预测关系ΔLL0 = 4π9β(1ϕ0−1ϕ)(其中β为几何常数，可计算)与数据拟合良好。致密化的机理似乎随温度的变化而变化——最初由反应控制，然后是沉淀。计算出的第二阶段的表观活化能(~ 60 Kcal/mol)约为先前工作者所得的一半。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ceramurgia International

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