Prof. Dr. Bambang Kismono Hadi
Professor in Composite Materials and Structures
Research Interest:
Prof. Hadi’s research interests include experimental and computational mechanics of composite materials and structures.
Education
- Bachelor Degree, (1987). Department of Mechanical Engineering, Institut Teknologi Bandung, Indonesia. Project: “Stress concentration factors in composite plate”.
- Master Degree, (1991). Center for Composite Materials, Imperial College, UK. Thesis: “Crashworthy design of composite structures helicopter seat”.
- Doctoral Degree, (1995). Department of Aeronautics, Imperial College, UK. Dissertation: “Buckling of anisotropic plates with and without holes”.
Latest Publications
In this paper, an analytical prediction and numerical simulation of the behavior of square crash box structures having hole at corners on dynamic axial crushing are studied. The focus of the present theoretical prediction is to calculate the mean crushing force and maximum crushing force during the folding process subjected to axial impact loading. Then, the effect of hole size to the crushing response of square crash box structures was also evaluated. For validation, an explicit nonlinear commercial finite element code LS-DYNA was used to predict the response of the structures subjected to axial crushing. It was found that results of numerical method and theoretical prediction were in good agreement. The results showed that, by inserting holes at corners, the folding can be controlled to be always started from the hole, and peak crush load on the first fold can be reduced significantly. Meanwhile, the decreasing of mean crushing force is insignificant compared to the one without holes. Hence, the characteristic of impact energy absorption in a progressive buckling can be improved, the damage in passenger compartment can be minimized, and the deceleration level can be kept in safe level to prevent injury of the passenger.