Collapse criteria for high temperature ceramic lattice truss materials

Abstract Based on the temperature dependent behaviors of the Young's modulus and the strength of high temperature ceramics, temperature dependent failure characteristics of high temperature ceramic lattice truss materials were analyzed to build temperature-dependent failure theory. In compression, compression fracture and buckling are the competing failure modes. In shearing, tensile fracture and buckling are the competing failure modes. High temperature softening of the ceramic strut induces fatal buckling collapse for the lightweight lattice truss structure at ultra-high temperature. Collapse criteria under different planar stress states were built and are supported by high temperature experiments. Instructed by the criteria, collapse surfaces consisting of fracture surface and buckling surface were plotted and give helpful suggestions to design high temperature resistant as well as lightweight lattice truss ceramic composites.