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Rang-Rong Chang

Professor
Department of Mechanical Engineering
China University of Science and Technology
China

Academician Engineering
Biography

Dr. Rang Rong-Chang received his Ph.D in Mechanical Engineering from National Chia-Tung University, TAIWAN. Currently, he is the Professor in the Department of Mechanical Engineering of China University of Science and Technology.

Research Intrest

Dr. Rang Rong-Chang area of interest includes Composite Material.

List of Publications
T. Y. Kam and R. R. Chang, 1992, “Optimal Lay-up of Thick Laminated Composite Plates for Maximum stiffness,” Journal  of Engineering Optimization, 19(4), pp. 237-249.
T. Y. Kam and R. R. Chang, 1992, “Buckling of Shear Deformable Laminated Composite Plates,” International Journal of  Composite Structures, 22(3), pp. 223-234.
T. Y. Kam and R. R. Chang, 1989, “Optimal Design of Laminated Composite Plates with Dynamic and Static Considerations,” Journal of Computers and Structures, 32(2), pp. 387-393.
Hsu CH, inventor. Hand tool adapter. United States patent US 8,307,742. 2012 Nov 13.
1. T. Y. Kam and R. R. Chang, 1989, “Optimal Design of Laminated Composite Plates with Dynamic and Static Considerations,” Journal of Computers and Structures, 32(2), pp. 387-393. 2. T. Y. Kam and R. R. Chang, 1992, “Buckling of Shear Deformable Laminated Composite Plates,” International Journal of  Composite Structures, 22(3), pp. 223-234. 3. T. Y. Kam and R. R. Chang, 1992, “Optimal Lay-up of Thick Laminated Composite Plates for Maximum stiffness,” Journal  of Engineering Optimization, 19(4), pp. 237-249. 4. R. R. Chang, K. H. Chu and T. Y. Kam, 1993, “Design of Laminated Composite Plates for Maximum Shear Buckling  Load,” Journal of Energy Resources Technology, ASME, 115, pp. 314-322. 5. T. Y. Kam and R. R. Chang, 1993, “Design of Laminated Composite Plates for Maximum Buckling Load and Vibration  Frequency,” Journal of Computer Methods in Applied Mechanics and Engineering, 106, pp. 65-81. 6. T. Y. Kam and R. R. Chang, 1993, “Finite Element Analysis of Shear Deformable Laminated Composite Plates,” Journal of  Energy Resources and Technology, ASME, 115, pp. 41-46. 7. T. Y. Kam and R. R. Chang, 1994, “Design of Thick Laminated Composite Plates for Maximum Damping,” International  Journal of Composite Structures, 29, pp. 57-67. 8. T. Y. Kam, H. F. Sher, T. N. Chao and R. R. Chang, 1996, “Predictions of Defection and First-ply Failure Load of Thin  Laminated Composite Plates via The Finite Element Approach,” International Journal of Solids Structures, 33(3), pp. 375-398. 9. R. R. Chang, 2000, “Experimental and Theoretical Analyses of First-ply Failure of Laminated Composite Pressure Vessels,”  Journal of Composite Structures, 49, pp.237-243. 10. R. R. Chang, 2001, “Optimal Design of Laminated Composite Torque Wrench,” Journal of Computers and Structures, 79,  pp.703-713. 11. R. R. Chang, 2002, “Finite Element Analyses and Experimental Considerations of the Deflection and Failure Behavior of an  Asymmetrical Composite Bicycle Handlebar,” Proceeding of the Institution of Mechanical Engineers Parts E: Journal of Process  Mechanical Engineering, 216, pp. 207-218. 12. R. R. Chang, J. M. Chu, 2003, “Predictions of First-ply Failure Load of Laminated Composite Shafts,” Journal of  Experimental Mechanics, 43(2), pp.183-193.

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