Creep Damage Analysis of a Lattice Truss Panel Structure

• Main Authors: Jiang Wenchun, Li Shaohua, Luo Yun, Xu Shugen
• Format: Article
• Language: English
• Published: De Gruyter 2017-01-01
• Series: High Temperature Materials and Processes
• Subjects: lattice truss structure; creep damage; finite element; 81.40. lm creep
• Online Access: https://doi.org/10.1515/htmp-2015-0189
• ISSN: 0334-6455; 2191-0324

The creep failure for a lattice truss sandwich panel structure has been predicted by finite element method (FEM). The creep damage is calculated by three kinds of stresses: as-brazed residual stress, operating thermal stress and mechanical load. The creep damage at tensile and compressive loads have been calculated and compared. The creep rate calculated by FEM, Gibson–Ashby and Hodge–Dunand models have been compared. The results show that the creep failure is located at the fillet at both tensile and creep loads. The damage rate at the fillet at tensile load is 50 times as much as that at compressive load. The lattice truss panel structure has a better creep resistance to compressive load than tensile load, because the creep and stress triaxiality at the fillet has been decreased at compressive load. The maximum creep strain at the fillet and the equivalent creep strain of the panel structure increase with the increase of applied load. Compared with Gibson–Ashby model and Hodge–Dunand models, the modified Gibson–Ashby model has a good prediction result compared with FEM. However, a more accurate model considering the size effect of the structure still needs to be developed.