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Stress-Focusing Effects in a Spherical Inclusion Embedded in an Infinite Medium Caused by Instantaneous Phase Transformation

Hata, Toshiaki

Abstract Recently, transformation toughening of ceramics has attracted considerable attention in several works [1]. The mechanism in the toughening of ceramics is the stress-induced phase transformation of a Zirconia particle [2], which is accompanied by volumetric expansion under cooling process. Due to this expansion, the composite material consisting of Zirconia particles within a brittle matrix becomes more resistant to thermal fracture. While in the dynamic state the mechanism in the toughening of ceramics is not well understood. Therefore the interaction between a thermal shock and a possible phase transformation in the transformation-toughened ceramics with Zirconia particles should be studied. In this paper a phenomenological model is proposed to describe the situation, which involves the interaction between a thermal shock and a dynamic inhomogeneity with a stress-induced martensitic transformation in a spherical particle of Zirconia embedded in an infinite elastic matrix.

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Stress-Focusing Effects in a Spherical Inclusion Embedded in an Infinite Medium Caused by Instantaneous Phase Transformation

Hata, Toshiaki

Abstract Recently, transformation toughening of ceramics has attracted considerable attention in several works [1]. The mechanism in the toughening of ceramics is the stress-induced phase transformation of a Zirconia particle [2], which is accompanied by volumetric expansion under cooling process. Due to this expansion, the composite material consisting of Zirconia particles within a brittle matrix becomes more resistant to thermal fracture. While in the dynamic state the mechanism in the toughening of ceramics is not well understood. Therefore the interaction between a thermal shock and a possible phase transformation in the transformation-toughened ceramics with Zirconia particles should be studied. In this paper a phenomenological model is proposed to describe the situation, which involves the interaction between a thermal shock and a dynamic inhomogeneity with a stress-induced martensitic transformation in a spherical particle of Zirconia embedded in an infinite elastic matrix.

Stress-Focusing Effects in a Spherical Inclusion Embedded in an Infinite Medium Caused by Instantaneous Phase Transformation

Hata, Toshiaki

Abstract Recently, transformation toughening of ceramics has attracted considerable attention in several works [1]. The mechanism in the toughening of ceramics is the stress-induced phase transformation of a Zirconia particle [2], which is accompanied by volumetric expansion under cooling process. Due to this expansion, the composite material consisting of Zirconia particles within a brittle matrix becomes more resistant to thermal fracture. While in the dynamic state the mechanism in the toughening of ceramics is not well understood. Therefore the interaction between a thermal shock and a possible phase transformation in the transformation-toughened ceramics with Zirconia particles should be studied. In this paper a phenomenological model is proposed to describe the situation, which involves the interaction between a thermal shock and a dynamic inhomogeneity with a stress-induced martensitic transformation in a spherical particle of Zirconia embedded in an infinite elastic matrix.

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Titel:

Stress-Focusing Effects in a Spherical Inclusion Embedded in an Infinite Medium Caused by Instantaneous Phase Transformation

Beteiligte:

Hata, Toshiaki (Autor:in)

Erschienen in:

IUTAM Symposium on Dynamics of Advanced Materials and Smart Structures ; 95-104

Solid Mechanics and Its Applications ; 106

Erscheinungsdatum:

01.01.2003

Format / Umfang:

10 pages

ISBN:

978-90-481-6192-8 , 978-94-017-0371-0

ISSN:

DOI:

https://doi.org/10.1007/978-94-017-0371-0_10

Medientyp:

Aufsatz/Kapitel (Buch)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Phase Transformation , Radial Stress , Spherical Inclusion , Infinite Medium , Zirconia Particle Engineering , Mechanical Engineering , Materials Science, general , Artificial Intelligence (incl. Robotics) , Civil Engineering , Appl.Mathematics/Computational Methods of Engineering , Mechanics

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