K
Kamran A. Khan
Researcher at Khalifa University
Publications - 158
Citations - 2077
Kamran A. Khan is an academic researcher from Khalifa University. The author has contributed to research in topics: Viscoelasticity & Finite element method. The author has an hindex of 19, co-authored 116 publications receiving 1157 citations. Previous affiliations of Kamran A. Khan include King Abdullah University of Science and Technology & Texas A&M University.
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Effective conductivities and elastic moduli of novel foams with triply periodic minimal surfaces
Diab W. Abueidda,Diab W. Abueidda,Rashid K. Abu Al-Rub,Ahmed S. Dalaq,Dong Wook Lee,Kamran A. Khan,Iwona Jasiuk +6 more
TL;DR: In this paper, a finite element method with periodic boundary conditions was used to predict effective electrical/thermal conductivities and elastic moduli of these TPMS-based foams.
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Stiffness and yield strength of architectured foams based on the Schwarz Primitive triply periodic minimal surface
TL;DR: In this article, the elastic properties (uniaxial, shear and bulk moduli, Zener anisotropy index, and Poisson's ratio) and yield strengths under several different stress states of the Schwarz Primitive TPMS sheet-based foam (referred to as P-foam) are investigated by finite element analyses of unit cells under periodic boundary conditions.
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The use of X-ray computed tomography for design and process modeling of aerospace composites: A review
TL;DR: A comprehensive review of the design and modeling aspects of key aerospace composites manufacturing techniques using the X-ray computed tomography (XCT) procedure is presented in this paper, with a view to adopt several modeling approaches ranging from mesoscale to macroscale models for composites processing.
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An overview of extrusion-based bioprinting with a focus on induced shear stress and its effect on cell viability
TL;DR: This review covers the principle of extrusions-based bioprinting, and highlights extrusion-basedBiOPrinting induced shear stress, how cells sense it and respond to it, and sheds light upon approaches to overcome shear Stress effect and therefore preserve cell viability.
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A variational constitutive framework for the nonlinear viscoelastic response of a dielectric elastomer
TL;DR: In this article, a variational constitutive framework is proposed to account for nonlinear viscous behavior of electrically sensitive polymers, specifically dielectric elastomers (DEs), under large deformation.