Faculty of Engineering

Dr.Abdallah Shokry Mahmoud Ali

Contact Information
Phone Number : 084 6337580 / 084 6337588                          
Fax Number : 084 6334031
E-mail Address: abdallah.shokry@fayoum.edu.eg
Office : Mechanical Engineering Bulding - Fourth Floor - Room 1
Postal Address : Fayoum - Fayoum University - Faculty of Engineering - Mechanical Department - POBox: 63514
Academic Qualifications
B. Sc.: Production and Mechanical Design Department - Cairo University-2001
M.Sc.: Production and Material Engineering - Faculty of Engineering - Cairo University- 2008  
P.hd.: Solid Mechanics - Faculty of Engineering - Lund University, Sweden - 2015 
Academic Positions
Demonstrator : From 2002 To 2009
Assistant Lecturer : From 2009 To 2015
Lecturer : From 2015 to 2020
Associate professor: From 2020 Until Now
Research Interests
Solid mechanics
Material engineering
Flow behavior of materials at elevated temperature and high strain rate
Constitutive modeling
Composite materials
Finite element method
Thesis
FINITE ELEMENT MODELING OF STEPPED DOUBLE TORSION FRACTURE TOUGHNESS SPECIMEN

ON THE DETERMINATION OF DIFFUSION COEFFICIENTS IN BONE

List of puplication
Attia, M. S., Mahmoud, A. S., Megahed, M. M., & Radwan, A. A. (2010). Numerical investigations of the stepped double torsion fracture toughness specimen. Engineering Fracture Mechanics, 77(16): 3359-3367.‏
Lindberg, G., Shokry, A., Reheman, W., & Svensson, I. (2014). Determination of diffusion coefficients in bovine bone by means of conductivity measurement. International Journal of Experimental and Computational Biomechanics, 2(4): 324-342.‏
Shokry, A., St?hle, P., & Svensson, I. (2015). Determination of spatially dependent diffusion parameters in bovine bone using Kalman filter. Journal of theoretical biology, 384: 10-18.‏
Shokry, A. (2015). On the determination of diffusion coefficients in bone. Doctoral dissertation, Lund University.
Shokry, A., St?hle, P., (2016). A methodology for using Kalman filter to determine material parameters from uncertain measurements. Materials Discovery, (2): 1-15.
Tiwari, A., Gopalan, A., Shokry, A., Singh, R. N., St?hle, P. (2017). Fracture study of ferritic/martensitic steels using Weibull stress analysis at quasi-static and higher loading rates. International Journal of Fracture. 205(1): 103-109.
Shokry, A., Lindberg, G., Kharmanda, G., St?hle, P. (2017). A Superposition Procedure for Calculation of Effective Diffusion and Elastic Parameters of Sparsely Porous Materials. Transport in Porous Media, 118(3): 473-494.
Kharmanda, G., Shokry, A., Kharma, M. Y. (2017). Integration of reliability analysis into mini-plate fixation strategy used in human mandible fractures: Convalescence and healing periods. Acta of Bioengineering & Biomechanics, 19(4): 13-23.

Shokry, A. (2017). A Modified Johnson-Cook Model for Flow Behavior of Alloy 800H at Intermediate Strain Rates and High Temperatures. Journal of Materials Engineering and Performance, 26(12): 5723-5730.

Kharmanda, G., Shokry, A., Antypas, I., El-Hami, A. (2018). Probabilistic analysis for osseointegration process of hollow stem used in un-cemented hip prosthesis. Uncertainties and Reliability of Multiphysical Systems. 2: 1–15.
Shokry, A. (2019). On the constitutive modeling of a powder metallurgy nanoquasicrystalline Al93Fe3Cr2Ti2 alloy at elevated temperatures. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 41(3): 118.

Kharmanda, G., Shokry, A., Gowid, S., El-Hami, A. (2019). Comparison of two points of view when developing reliability-based topology optimization model: Validation on fatigue damage analysis. Uncertainties and Reliability of Multiphysical Systems 3(1): 1-11.
Gowid, S., Dixon, R., Ghani, S., Shokry, A. (2019). Robustness Analysis of the FFT-based Segmentation, Feature Selection and Machine Fault Identification Algorithm. Insight-Non-Destructive Testing and Condition Monitoring, 61(5): 271-178.
E Salem, S., Shokry, A., F Aly, M. (2019). Effect of strain rate and nano-zno addition on mechanical properties of glass fiber reinforced polyester composite. International Journal of Mechanical Engineering and Technology 10: 12–19.

Shokry, A. Gowid, S., Kharmanda, G., Mahdi, E. Constitutive Models for the Prediction of the Hot Deformation Behavior of the 10%Cr Steel Alloy. Materials, 12(18):2873.

Kharmanda, G., Gowid, S., Mahdi, E., Shokry, A. (2020). Efficient System Reliability-Based Design Optimization Study for Replaced Hip Prosthesis Using New Optimized Anisotropic Bone Formulations. Materials 13: 362.

Mohamed, H., Aly, M., Shokry, A. (2020). Numerical and Experimental Characterization of Composite Leaf Spring Subjected to Bending. Journal of Mechanical Engineering Research & Developments, 43(2): 371-383.
Gowid, S., Mahdi, E., Renno, J., Sassi, S., Kharmanda, G., Shokry, A. (2020). Experimental investigation of the crashworthiness performance of fiber and fiber steel-reinforced composites tubes. Composite Structures, 112655 (2020)
Shokry, A. Gowid, S., Kharmanda, G. An improved generic Johnson-Cook model for the flow prediction of different categories of alloys at elevated temperatures and dynamic loading conditions. Materials Today Communications, 27: 102296 (2021).
Gowid, S., Mahdi, E., Youssef, S.S., Moustafa, E., Mosleh, A., Shokry, A. Experimental investigation of the dynamic characteristics of wrapped and wound fiber and metal/fiber reinforced composite pipes. Composite Structures., 276: 114569 (2021).
Shokry, A., Ahadi, A., St?hle, P., Orlov, D. Improvement of structural efficiency in metals by the control of topological arrangements in ultrafine and coarse grains. Scientific Reports, 11: 17445 (2021).
Shokry, A., Mulki, H., Kharmanda, G. A Logarithmic Formulation for Anisotropic Behavior Characterization of Bovine Cortical Bone Tissue in Long Bones Undergoing Uniaxial Compression at Different Speeds. Materials. (17):5045 (2021).
Shokry, A., Gowid, S., Youssef, S.S. Modeling the flow behavior of Haynes 214 superalloy during hot deformation using mathematical and artificial intelligence-based models. Materials Today Communications. 33:104326 (2022).