Influence of partial blistering on the global and the local stress and couple stress field for a monolayer graphene resting on substrate
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Publication:5374463
DOI10.1177%2F1081286516684665zbMath1395.74058MaRDI QIDQ5374463
Dimitris Sfyris, Georgios I. Sfyris
Publication date: 14 September 2018
Published in: Mathematics and Mechanics of Solids (Search for Journal in Brave)
Cites Work
- Unnamed Item
- Curvature-dependent surface energy and implications for nanostructures
- On configurational weak phase transitions in graphene
- Reconciliation of local and global symmetries of crystals
- Symmetry breaking in monoatomic 2-lattices
- On \(\nu +1\)-lattices
- On the symmetry of deformable crystals
- The morphology and folding patterns of buckling-driven thin-film blisters
- The influence of imperfections on the nucleation and propagation of buckling driven delaminations
- Phonon, Cauchy-Born and homogenized stability criteria for a free-standing monolayer graphene at the continuum level
- Wrinkling of a stretched thin sheet
- Buckling delamination in compressed multilayers on curved substrates with accompanying ridge cracks
- The arithmetic symmetry of monoatomic 2-nets
- Blister Patterns and Energy Minimization in Compressed Thin Films on Compliant Substrates
- Curvature-dependent surface energy for free-standing monolayer graphene
- On the Cauchy—Born Rule
- A unified interpretation of stress in molecular systems
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