K.B. Shingare
Indian Institute of Technology Indore
13 Papers
5 Citations
K.B. Shingare is an academic researcher from Indian Institute of Technology Indore. The author has contributed to research in topics: Piezoelectricity & Flexoelectricity. The author has an hindex of 4, co-authored 9 publications. Previous affiliations of K.B. Shingare include Indian Institute of Technology Bombay.
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Papers
Effect of flexoelectricity on the electromechanical response of graphene nanocomposite beam
TL;DR: In this article, an analytical model based on the linear piezoelectricity and Euler beam theories was also developed to investigate the electromechanical response of GRNC cantilever beam under both electrical and mechanical loads accounting the flexoelectoric effect.
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Flexoelectricity and surface effects on coupled electromechanical responses of graphene reinforced functionally graded nanocomposites: A unified size-dependent semi-analytical framework
TL;DR: In this article , a semi-analytical "singleterm extended Kantorovich method" and "Ritz method" based powerful framework is developed for investigating the static and dynamic electromechanical responses of graphene reinforced piezoelectric functionally graded (FG) nanocomposite plates, respectively.
Probing the prediction of effective properties for composite materials
K.B. Shingare,S. Naskar +1 more
TL;DR: In this paper, different micromechanical modelling techniques based on analytical and numerical approaches were used to determine the effective elastic and piezoelectric (piezoelastic) properties of graphene-based composite materials.
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Electromechanical response of thin shell laminated with flexoelectric composite layer
TL;DR: In this paper, an analytical model was developed for the elastic shell laminated with flexoelectric graphene-based composite layer based on Kirchhoff-love theory considering both piezoelectrics and flexolectric effects to investigate the electric potential distributions in it.
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Evaluation of effective properties for smart graphene reinforced nanocomposite materials
TL;DR: In this paper, analytical and numerical models were developed to investigate the effective properties of graphene reinforced nanocomposite (GRNC) subjected to electromechanical loading, which showed a good agreement for loading applied along the fiber direction when compared to transverse loading.
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