Items where Author is "Shamsudin, S."
Al-Alimi, S. and Lajis, M.A. and Shamsudin, S. and Yusuf, N.K. and Altharan, Y. and Didane, D.H. and Saif, Y. and Sadeq, S. and Sabbar, H.M. and Msebawi, M.S. (2022) Effects of Preheating Temperature on Deformed AA6061 Aluminium Properties of Hot Equal Channel Angular Pressing (ECAP) by Using Deform-3D Software. Arabian Journal for Science and Engineering.
Al-Alimi, S. and Lajis, M.A. and Shamsudin, S. and Yusuf, N.K. and Altharan, Y. and Didane, D.H. and Saif, Y. and Sadeq, S. and Sabbar, H.M. and Msebawi, M.S. (2022) Effects of Preheating Temperature on Deformed AA6061 Aluminium Properties of Hot Equal Channel Angular Pressing (ECAP) by Using Deform-3D Software. Arabian Journal for Science and Engineering.
Khalili, N.F.M. and Jun, H.J. and Ahmad, A. and Sallih, N. and Lajis, M.A. and Shamsudin, S. (2021) The Investigation of Hot Extrusion Process Parameters on Microstructure and Mechanical Performance of Aluminium Alloy in Biomedical Industry. Lecture Notes in Mechanical Engineering. pp. 327-332.
Khalili, N.F.M. and Jun, H.J. and Ahmad, A. and Sallih, N. and Lajis, M.A. and Shamsudin, S. (2021) The Investigation of Hot Extrusion Process Parameters on Microstructure and Mechanical Performance of Aluminium Alloy in Biomedical Industry. Lecture Notes in Mechanical Engineering. pp. 327-332.
Al-Alimi, S. and Lajis, M.A. and Shamsudin, S. and Chan, B.L. and Mohammed, Y. and Ismail, A.E. and Sultan, N.M. (2020) Development of metal matrix composites and related forming techniques by direct recycling of light metals: A review. International Journal of Integrated Engineering, 12 (1). pp. 144-171.
Ahmad, A. and Lajis, M.A. and Shamsudin, S. and Yusuf, N.K. (2018) Conjectured the behaviour of a recycled metal matrix composite (MMC-AlR) developed through hot press forging by means of 3D FEM simulation. Materials, 11 (6).
Ahmad, A. and Lajis, M.A. and Shamsudin, S. and Yusuf, N.K. (2018) Conjectured the behaviour of a recycled metal matrix composite (MMC-AlR) developed through hot press forging by means of 3D FEM simulation. Materials, 11 (6).