Dr. Mohammed Elsayed Saber



































RANK: Assistant Professor




      Ph.D.  Mechanical Engineering, Solid Mechanics, University of Nottingham, UK, 2011.

      B.Sc.   Production Engineering and Mechanical Design, Mansoura University, Egypt, 2000.




  • Mechanics of Solids

  • Mechanical design

  • Material testing

  • Fracture mechanics

  • Creep and creep crack growth in high temperature materials



  •  2014-Present: Assistant Professor of mechanical engineering at King Faisal University,  Kingdom of Saudi Arabia

  • 2011 to Present: Assistant Professor of mechanical engineering at Port Said University, Egypt (on leave).

  • 2007-2011 PhD student and teaching assistant at the Nottingham University, UK.

  • 2003-2007: Teaching assistant at the Faculty of Engineering, Suez Canal University, Egypt

  • 2001-2003: Mechanical Engineer at the Egyptian Navy Shipyard



  1. Ahmed Elkaseer, Ali Abdelaziz, Mohammed Saber and Ahmed Nassef (2019) FEM-Based Study of Precision Hard Turning of Stainless Steel 316L, Materials, 12, 2522; doi:10.3390/ma12162522


  1. Mohammed Saber (2019) Analysis of Integrated Cylinder-Shaped Steel Flywheels in Flywheel Energy Storing Systems,  Port Said Engineering Research Journal, Faculty of Engineering, Port Said University, Egypt, Volume. (23) No. 2 pp. 41:50, DOI: 10.21608/PSERJ.2019.14198.1004


  1. Mohammed Saber, Finite Element Simulation of Metal Cutting of Aluminum, (2016) Mansoura Engineering Journal (MEJ) Mansoura Engineering Journal, Egypt, VOL. 4, ISSUE 2, M34:M41


  1. Balhassn S. M. Ali, Terry Y. P. Yuen and    Mohammed Saber (2016) Creep Evaluation of Traditional and    Nuclear Power Plants High Temperature Components, Using Small Pin Loaded One-Bar and Two-Bar Specimens, Nuclear Technology.


  1. A. Abdelaziz , A. Elkaseer , M. Saber , A. Nassef (2016) FE Simulation Study of Ultra-Precision Turning of Stainless Steel 316L, 17th Int. Conference on Applied Mechanics and Mechanical Engineering, Military Technical College, Kobry El-Kobbah, Cairo, Egypt,, April 19-21, 2016.


  1. Balhassn S. M. Ali and    Mohammed Saber (2016) Numerical Investigation of the Effects of Misalignment on the Pre-mature Failure of the Standard and Sub-size Proceedings of MECHATECH 16 conference, MAY 17-18, 2016, Istanbul, Turkey.


  1. M. Saber, T. H. Hyde and    W. Sun (2016) Numerical study of the effects of crack location on creep crack growth in weldment. Engineering Fracture Mechanics, 154, March 2016, 72-82.


  1. El-shrief E., Saber M., Nassef A. and    Shaker M (2016) Numerical Simulation to Study the Influence of Welding Sequence on Distortion and    Residual Stresses of Butt-Welded Plates, Port Said Engineering Research Journal, Faculty of Engineering, Port Said University, Egypt, Volume. (20) No. 1 pp. 118:126.


  1. Ebtisam F. Abdel-Gwad, Ahmed Elkaseer, Mohamed Saber and Mahmoud Elqazzaz (2016) Evaluation of Mixed Structural Steel lap Joints Using Experimental and Finite Element Methods, Port said engineering research journal, Faculty of Engineering, Port Said University, Egypt. Volume. (20) No. 2 pp. 124:131


  1. CJ Hyde, W Sun, TH Hyde, M Saber and A A Becker (2014), Application of the Liu and    Murakami Damage Model for Creep Crack Growth Predictions in Power Plant Steels, Book Chapter.


  1. D. W. J. Tanner, M. Saber, W. Sun and T. H. Hyde (2013) Creep Behavior of P92 and    P92 Welds at 675C. Journal of Pressure Vessel Technology 135 (5), 051404-1:051404-8.


  1. D. W. J. Tanner, M. Saber, W. Sun and T. H. Hyde (2012) Creep Behavior of P92 and    P92 Welds at 675C. Proceedings of the ASME 2012 Pressure Vessels & Piping Division Conference, PVP2012, July 15-19, 2012, Toronto, Ontario, CANADA.


  1. Sun, W., Hyde, C. J., Hyde, T. H., Becker, A. A., Li, R. and    Saber, M. (2011) Finite Element Analysis of Creep Crack Growth for Compact Tension and    Thumbnail Crack Specimens. Proceedings of ICAPP 2011, Nice, France, May 2-5, 2011, Paper 11262.


  1. M. Saber, D. W. J. Tanner, T. H. Hyde and W. Sun (2011) Determination of Creep and    Damage properties for P92 at 675C. The Journal of Strain Analysis for Engineering Design, 46, 842-851.


  1. Hyde, T. H., Saber, M.  and Sun, W. (2010) Creep crack growth data and    prediction for a P91 weld at 650 C. International Journal of Pressure Vessels and    Piping, 87, 721-729


  1. Hyde, T. H., Li, R., Sun, W. and Saber, M. (2010) A simplified method for predicting the creep crack growth in P91 welds at 650C. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and    Applications.

  3. Hyde, T. H., Saber, M. and Sun, W. (2010) Testing and    modelling of creep crack growth in compact tension specimens from a P91 weld at 650C. Engineering Fracture Mechanics, 77, 2946-2957.

  5. Hyde, T. H., Saber, M. and Sun, W. (2009) Creep Crack Growth in a P91 Weld at 650C. WELDS. Sanibel Harbour Resort & Spa, Fort Myers, Florida, USA.