Hosseini M, Didehban Dogori M H. A review of buckling analysis of structures made of ceramic composites. Iranian Journal of Ceramic Science & Engineering 2024; 13 (2) :76-103
URL:
http://ijcse.ir/article-1-992-en.html
1- Malayer University , m.hosseini27@gmail.com
2- Malayer University
Abstract: (277 Views)
This paper presents a comprehensive review of buckling analysis of structures made of ceramic matrix composites (CMCs). Due to their thermal resistance, chemical stability, high specific strength and resistance to thermal shock, CMCs are considered advanced materials that have been widely used in the aerospace, automotive and energy industries. Considering the increasing use of these materials in vital structures, it is very necessary to understand their mechanical behavior, especially the phenomenon of buckling, which is a sudden deformation of the structure under pressure and can lead to failure. This review first introduces the key thermomechanical properties of CMCs and the fundamental concepts of buckling (local and general). Then, analytical and numerical methods (such as FEM) used to analyze the buckling of these materials are discussed. In the following, the buckling behavior of various types of CMCs structures (plates, shells, columns) under different temperature, loading and boundary conditions is investigated and the effect of important parameters such as anisotropy, layer arrangement, structural defects and temperature is analyzed. Finally, this review article reviews the industrial applications of CMCs and their design challenges and emphasizes the necessity of developing analytical-experimental combined methods and complex modeling to achieve optimal and safe designs in this field.
Type of Study:
Research |
Subject:
Other fields Received: 2025/09/11 | Accepted: 2026/01/6