作者：Alain GASSER,Eric BLOND,Thomas SAYET

作者单位：Univ. Orléans, Univ. Tours, INSA-CVL

刊名：China's Refractories

ISSN：1004-4493

出版年：2024-09-15

卷：33

期：3

起页：1-8

止页：

分类号：TF31;TQ175.7

语种：英文

关键词：

内容简介

Some refractory linings that protect metallic vessels from the hot temperature of the products they contain are made of masonries with or without mortar. The joints play an important role, reducing the stresses in the masonries during heating.Furthermore, the presence of these joints makes the behaviour of the masonry nonlinear and orthotropic. To perform a thermomechanical simulation using a finite element method of an industrial vessel that contains hundreds or thousands of bricks and joints, microscopic models are not suitable due to the high computational time and the management of the behaviour of the joints(opening/closing) which affects the convergence. To overcome these problems, it is proposed to replace the masonry by a homogeneous material that has a behaviour equivalent to the set of bricks and joints, using a periodic homogenization technique. Since the joints can be closed or open, the equivalent material will have a different behaviour according to the joint state. Furthermore, refractory materials have an elastic-viscoplastic behaviour at high temperatures. So,the equivalent material will have an orthotropic elastic-viscoplastic behaviour, requiring a nonlinear homogenisation technique.An overview of this approach developed at University of Orléans is presented with two industrial applications(blast-furnace and steel ladle).