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Amit Karmakar
Researcher at Jadavpur University
Publications - 86
Citations - 714
Amit Karmakar is an academic researcher from Jadavpur University. The author has contributed to research in topics: Finite element method & Conical surface. The author has an hindex of 12, co-authored 67 publications receiving 471 citations. Previous affiliations of Amit Karmakar include Tokyo Institute of Technology.
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Free vibration analyses of multiple delaminated angle-ply composite conical shells – A finite element approach
Sudip Dey,Amit Karmakar +1 more
TL;DR: In this article, the effects of delamination on free vibration characteristics of graphite-epoxy pretwisted shallow angle-ply composite conical shells were investigated using the finite element method.
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Thermoelastic free vibration response of graphene reinforced laminated composite shells
TL;DR: In this article, the free vibration analysis of single and doubly curved laminated composite shell panels in thermal environment using finite element method was performed using higher order shear deformation theory (HSDT).
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Failure Analysis of Laminated Composite Pretwisted Rotating Plates
Amit Karmakar,P.K. Sinha +1 more
TL;DR: In this article, a finite element computational procedure is presented for the determination of first-ply failure strengths of pretwisted rotating plates subjected to center point transverse load, where effects of transverse shear deformation and rotary inertia are included.
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Free vibration analysis of rotating pretwisted composite sandwich conical shells with multiple debonding in hygrothermal environment
TL;DR: In this paper, a finite element based method to study the influence of elevated temperature and moisture absorption on the free vibration behavior of rotating pretwisted sandwich conical shells consisting of two composite face-sheets and a synthetic foam core is presented.
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Free vibration of rotating pretwisted FG-GRC sandwich conical shells in thermal environment using HSDT
TL;DR: In this article, the free vibration behavior of rotating pretwisted sandwich conical shell panels with functionally graded graphene-reinforced composite (FG-GRC) face sheets and homogenous core is investigated in uniform thermal environment using finite element method in conjunction with a higher-order shear deformation theory (HSDT).