Size effect on thermo-mechanical instability of micro/nano scale organic solar cells
DOI10.1007/s11012-021-01411-6zbMath1527.74022OpenAlexW3189596897MaRDI QIDQ6113536
Bao-Lin Wang, Jine Li, Shuo Liu, Kaifa Wang, Chunwei Zhang
Publication date: 9 August 2023
Published in: Meccanica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11012-021-01411-6
isogeometric analysismodified couple stress theorymaterial length scale parametercomposite platethermo-mechanical buckling
Plates (74K20) Micromechanics of solids (74M25) Composite and mixture properties (74E30) Thermal effects in solid mechanics (74F05) Bifurcation and buckling (74G60) Isogeometric methods applied to problems in solid mechanics (74S22)
Cites Work
- A non-classical Mindlin plate model based on a modified couple stress theory
- A new Kirchhoff plate model based on a modified couple stress theory
- Isogeometric analysis: CAD, finite elements, NURBS, exact geometry and mesh refinement
- Elastic materials with couple-stresses
- A phenomenological theory for strain gradient effects in plasticity
- Indentation size effects in crystalline materials: a law for strain gradient plasticity
- Analytical solutions for the size dependent buckling and postbuckling behavior of functionally graded micro-plates
- Size effects of functionally graded moderately thick microplates: a novel non-classical simple-FSDT isogeometric analysis
- Analytical solutions of refined plate theory for bending, buckling and vibration analyses of thick plates
- Couple stress based strain gradient theory for elasticity
- The size-dependent thermal bending and buckling analyses of composite laminate microplate based on new modified couple stress theory and isogeometric analysis
- A comprehensive analysis of functionally graded sandwich plates. II: Buckling and free vibration
This page was built for publication: Size effect on thermo-mechanical instability of micro/nano scale organic solar cells
