M. A. Abdou scite author profile

M. A. Abdou

4Publications

23Citation Statements Received

27Citation Statements Given

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Affiliations

Alexandria University, Sinai University, Marymount University

Publications

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On a discussion of Volterra–Fredholm integral equation with discontinuous kernel

2020

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The purpose of this paper is to establish the general solution of a Volterra-Fredholm integral equation with discontinuous kernel in a Banach space. Banach's fixed point theorem is used to prove the existence and uniqueness of the solution. By using separation of variables method, the problem is reduced to Volterra integral equations of the second kind with continuous kernel. Normality and continuity of the integral operator are also discussed.

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The behaviour of the maximum and minimum error for Fredholm-Volterra integral equations in two-dimensional space

Abdou

Elhamaky

Soliman

et al. 2021

Journal of Interdisciplinary Mathematics

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Thermopotential function in position and time for a plate weakened by curvilinear hole

Abdou

Basseem

2022

Arch Appl Mech

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Transient Finite-Speed Heat Transfer Influence on Deformation of a Nanoplate with Ultrafast Circular Ring Heating

et al. 2023

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The present study provides a theoretical estimate for the thermal stress distribution and the displacement vector inside a nano-thick infinite plate due to an exponentially temporal decaying boundary heating on the front surface of the elastic plate. The surface heating is in the form of a circular ring; therefore, the axisymmetric formulation is adopted. Three different hyperbolic models of thermal transport are considered: the Maxwell-Cattaneo-Vernotte (MCV), hyperbolic Dual-Phase-Lag (HDPL) and modified hyperbolic Dual-Phase-Lag (MHDPL), which coincides with the two-step model under certain constraints. A focus is directed to the main features of the corresponding hyperbolic thermoelastic models, e.g., finite-speed thermal waves, singular surfaces (wave fronts) and wave reflection on the rear surface of the plate. Explicit expressions for the thermal and mechanical wave speeds are derived and discussed. Exact solution for the temperature in the short-time domain is derived when the thermalization time on the front surface is very long. The temperature, hydrostatic stress and displacement vector are represented in the space-time domain, with concentrating attention on the thermal reflection phenomenon on the thermally insulated rear surface. We find that the mechanical wave speeds are approximately equal for the considered models, while the thermal wave speeds are entirely different such that the modified hyperbolic dual-phase-lag thermoelasticity has the faster thermal wave speed and the Lord-Shulman thermoelasticity has the slower thermal wave speed.

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M. A. Abdou

On a discussion of Volterra–Fredholm integral equation with discontinuous kernel

The behaviour of the maximum and minimum error for Fredholm-Volterra integral equations in two-dimensional space

Thermopotential function in position and time for a plate weakened by curvilinear hole

Transient Finite-Speed Heat Transfer Influence on Deformation of a Nanoplate with Ultrafast Circular Ring Heating

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