Untypical Young's modulus evolution of model refractories at high temperature

N. TESSIER-DOYEN; J. C. GLANDUS; M. HUGER

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Untypical Young's modulus evolution of model refractories at high temperature

机译：模型耐火材料在高温下的非典型杨氏模量演变

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Industrial refractories can exhibit untypical Young's modulus behaviour versus temperature, characterized by hysteretic loops in the plot E_((T)). This paper shows how the use of simplified model materials helps in the understanding of such behaviours, obviously depending both on the properties of each component of the refractory material and on the presence of internal defects. Model materials constituted of a hot-pressed glass matrix surrounding spherical alumina inclusions have been studied. Glasses exhibiting various coefficients of thermal expansion (CTE) have been used as matrix in order to obtain three typical microstructural configurations (DELTA alpha < 0, DELTA alpha = 0 and DELTA alpha > 0, where DELTA alpha denotes the CTE difference between matrix and inclusions).

机译：工业耐火材料可表现出典型的杨氏模量与温度的关系，其特征为曲线E _（（T））中的磁滞回线。本文显示了简化模型材料的使用如何有助于理解这种行为，显然取决于耐火材料各成分的特性和内部缺陷的存在。已经研究了由围绕球形氧化铝夹杂物的热压玻璃基体构成的模型材料。具有各种热膨胀系数（CTE）的玻璃已被用作基质，以获得三种典型的微结构形态（DELTAα<0，DELTAα= 0和DELTAα> 0，其中DELTAα表示基质与夹杂物之间的CTE差异）。

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《Journal of the European Ceramic Society 》 |2006年第3期| 共7页
作者
N. TESSIER-DOYEN; J. C. GLANDUS; M. HUGER;
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正文语种 eng
中图分类陶瓷工业 ;
关键词
Refractories; Thermal expansion; Young's modulus; Al_2O_3/glass;

机译：耐火材料;热膨胀;杨氏模量;Al_2O_3 /玻璃;

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1. Untypical Young's modulus evolution of model refractories at high temperature [J] . N. TESSIER-DOYEN, J. C. GLANDUS, M. HUGER Journal of the European Ceramic Society . 2006 ,第3期

机译：模型耐火材料在高温下的非典型杨氏模量演变
2. Young’s modulus evolution at high temperature of SiC refractory castables [J] . O. Bahloul, T. Chotard, M. Huger, Journal of Materials Science . 2010 ,第13期

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3. Young's modulus evolution with temperature of glass/andalusite model materials: Experimental and numerical approach [J] . Qi B., Tessier-Doyen N., Absi J. Computational Materials Science . 2012 ,第Null期

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4. Understanding Abnormal Young's Modulus Evolutions of Industrial Refractories at High Temperature [C] . NICOLAS TESSIER-DOYEN, MARC HUGER, JEAN-CLAUDE GLANDUS, Biennial Worldwide Conference on Refractories . 2003

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Untypical Young's modulus evolution of model refractories at high temperature

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