NUMERICAL ANALYSIS OF INTERFACIAL DEBONDING OF METAL/CERAMIC BIMATERIAL USING FEM
Sara Ramdoum, Boualem Serier, Luciano Feo
Quarterly No. 3, 2022 pages 130-134
DOI:
keywords: stresses, crack, interface, bimaterial, FEM
abstract The bimaterials applied in various fields of industry consist mainly of ceramics and metal. Their damage is mainly due to the presence of residual stresses generated during their manufacture. The damaged area is closely related to the high production temperature. The aim of this study is to analyze the effect of these factors on the behavior of an interfacial and subinterfacial crack in the volume of alumina material. This behavior is studied in terms of variation of the stress intensity factor (SIF) in Modes I, II and III. A study by means of the finite element method (FEM) was carried out. This work demonstrates that the risk of sudden propagation of these cracks is all the more probable when the bimaterial is produced at high temperatures. The elastoplastic behavior of the metal considerably minimizes this risk by plasticizing the metal, which allows strong relaxation of the residual stresses.