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Analysis of failure mechanisms of Oxide - Oxide ceramic matrix composites

Karthikeyan Ramachandran, Subhashree Leelavinodhan, Christian Antao, Antony Copti, Cantalapiedra Mauricio, Y. Jyothi, D.D. Jayaseelan

2021Journal of the European Ceramic Society42 citationsDOIOpen Access PDF

Abstract

The failure mechanisms of Oxide-Oxide ceramic matrix composites AS-N610 were studied at both room temperature and high temperature using tensile and fatigue tests with and without lateral and laminar notches. The unnotched coupons had an average tensile strength of 423 MPa with elastic modulus of 97 GPa at room temperature showing a perfect elastic behaviour whereas the laminar notched samples shown similar strength of 425 MPa with elastic modulus (98 GPa) revealing pseudo-ductile behaviour. A reduction in tensile strength of the oxide ceramic matrix composites was observed at high temperatures. Thermal shock experiments revealed that the retained strength of the samples quenched from 1100 °C deteriorated by ∼10 % (395 ± 15 MPa). In all samples, fracture origin was observed on the mid-plane showing a higher degree of fiber pull-out, delamination and pseudo ductile behaviour. Finite element analysis confirmed higher stress concentration on the areas of failures.

Topics & Concepts

Materials scienceComposite materialUltimate tensile strengthCeramicOxideCeramic matrix compositeThermal shockElastic modulusModulusStress (linguistics)MetallurgyPhilosophyLinguisticsAdvanced ceramic materials synthesisAdvanced materials and compositesNuclear materials and radiation effects