Junction Ni/Al 2 O 3 Elaborated by Thermocompression: Determination of the Thermal Residual Stresses

B. Boutabout; B. Serier; B. BACHIR Bouiadjra; D. Tréheux

doi:10.1080/15376490490277303

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Junction Ni/Al 2 O 3 Elaborated by Thermocompression: Determination of the Thermal Residual Stresses

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Junction Ni/Al 2 O 3 Elaborated by Thermocompression: Determination of the Thermal Residual Stresses

B. Boutabout, B. Serier, B. BACHIR Bouiadjra and D. Tréheux

Mechanics of advanced materials and structures, Vol.11(2), pp.93-107

01/03/2004

DOI: https://doi.org/10.1080/15376490490277303

Abstract

In this study, the analysis of thermal residual stresses in a nickel-alumina bimaterial are studied using finite element analysis. The variation of the normal thermal residual stress and shear stress is evaluated near the interface of the bimaterials. The effect of the temperature gradient, the thickness of the material, and the size of the assembly on the distribution of thermal stresses are highlighted. The mechanical resistance to fracture of this type of assembly mainly depends on these residual stresses, which are initiated after the elaboration process of the bimaterials.

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Title: Junction Ni/Al 2 O 3 Elaborated by Thermocompression: Determination of the Thermal Residual Stresses
Creators - without role: B. Boutabout - Université Djillali Liabes
B. Serier - Université Djillali Liabes
B. BACHIR Bouiadjra - Université Djillali Liabes
D. Tréheux - École Centrale de Lyon
Publication Details: Mechanics of advanced materials and structures, Vol.11(2), pp.93-107
Publisher: Taylor & Francis Group
Identifiers: 9949068008331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article