Analysis of Composite Plates Using Moving Least Squares Differential Quadrature Method

Faculty Engineering Year: 2014
Type of Publication: ZU Hosted Pages: 225-236
Authors:
Ola Ragab Abdou Mohamed
Journal: applied mathematics and computation Science Direct Volume: 238
Keywords : Analysis , Composite Plates Using Moving Least    
Abstract:
In this work, the moving least squares differential quadrature method (MLSDQM) is employed to analyze bending problems of composite plates. Based on a transverse shear theory, the governing equations of the problem are derived. The transver
    
     
 
       

Author Related Publications

  • Ola Ragab Abdou Mohamed, "Efficient Quadrature Solution for Composite Plate Problems", medwelljournals, 2014 More
  • Ola Ragab Abdou Mohamed, "Quadrature Analysis of Functionally Graded Materials", IJET-IJENS, 2014 More
  • Ola Ragab Abdou Mohamed, "Natural frequencies of a functionally graded cracked beam using the differential quadrature method", Science Direct, 2009 More
  • Ola Ragab Abdou Mohamed, "Vibration analysis of structural elements using differential quadrature method", Cairo University, 2012 More
  • Ola Ragab Abdou Mohamed, "Efficient Quadrature Solution for Composite Plates with Variable Thickness Resting on Non-Uniform and Nonlinear Elastic Foundation", International Journal, 2019 More

Department Related Publications

  • Salwa Amien Mohamed ebrhiem, "Analysis of cracked plates using an iterative hybrid technique of boundary element method and distributed dislocation method", لايوجد, 1900 More
  • Salwa Amien Mohamed ebrhiem, "Analytical Solution of Cracked Shell Resting on Elastic Foundation", لايوجد, 1900 More
  • Salwa Amien Mohamed ebrhiem, "Analysis of cracked plates using an iterative hybrid technique of boundary element method and distributed dislocation method", Elsevier, 2007 More
  • Ola Ragab Abdou Mohamed, "Efficient Quadrature Solution for Composite Plate Problems", medwelljournals, 2014 More
  • Amgad Elsayed Soulaiman , "Computerized Langmuir Probe Measurements in a Capacitively Coupled RF Discharge", 28th ICPIG, July 15-20, 2007, Prague, Czech Republic, 2007 More
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