Modeling and analysis of micro-sized plates resting on elastic medium using the modified couple stress theory
出版年份 2012 全文链接
标题
Modeling and analysis of micro-sized plates resting on elastic medium using the modified couple stress theory
作者
关键词
-
出版物
MECCANICA
Volume 48, Issue 4, Pages 863-873
出版商
Springer Nature
发表日期
2012-10-24
DOI
10.1007/s11012-012-9639-x
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Vibration analysis of microscale plates based on modified couple stress theory
- (2013) Li Yin et al. ACTA MECHANICA SOLIDA SINICA
- A size-dependent nonlinear Timoshenko microbeam model based on the strain gradient theory
- (2012) M. Asghari et al. ACTA MECHANICA
- Pull-in analysis of electrically actuated viscoelastic microbeams based on a modified couple stress theory
- (2012) Jin Zhang et al. MECCANICA
- A non-classical Mindlin plate model based on a modified couple stress theory
- (2011) H. M. Ma et al. ACTA MECHANICA
- Analysis of micro-sized beams for various boundary conditions based on the strain gradient elasticity theory
- (2011) Bekir Akgöz et al. ARCHIVE OF APPLIED MECHANICS
- A nonlinear modified couple stress-based third-order theory of functionally graded plates
- (2011) J.N. Reddy et al. COMPOSITE STRUCTURES
- A size-dependent Kirchhoff micro-plate model based on strain gradient elasticity theory
- (2011) Binglei Wang et al. EUROPEAN JOURNAL OF MECHANICS A-SOLIDS
- Torsion of strain gradient bars
- (2011) M.H. Kahrobaiyan et al. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE
- Strain gradient elasticity and modified couple stress models for buckling analysis of axially loaded micro-scaled beams
- (2011) Bekir Akgöz et al. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE
- Geometrically nonlinear micro-plate formulation based on the modified couple stress theory
- (2011) M. Asghari INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE
- Free vibration of size-dependent Mindlin microplates based on the modified couple stress theory
- (2011) Liao-Liang Ke et al. JOURNAL OF SOUND AND VIBRATION
- Analysis of thick plates by local radial basis functions-finite differences method
- (2011) C. M. C. Roque et al. MECCANICA
- Buckling analysis of functionally graded arbitrary straight-sided quadrilateral plates on elastic foundations
- (2011) P. Malekzadeh et al. MECCANICA
- Vibrations of nonhomogeneous orthotropic rectangular plates with bilinear thickness variation resting on Winkler foundation
- (2011) Yajuvindra Kumar et al. MECCANICA
- Three-dimensional free vibration analysis of functionally graded piezoelectric annular plates on elastic foundations
- (2011) M. H. Yas et al. MECCANICA
- Investigation of the size effects in Timoshenko beams based on the couple stress theory
- (2010) M. Asghari et al. ARCHIVE OF APPLIED MECHANICS
- Investigation of the size-dependent dynamic characteristics of atomic force microscope microcantilevers based on the modified couple stress theory
- (2010) M.H. Kahrobaiyan et al. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE
- A nonlinear Timoshenko beam formulation based on the modified couple stress theory
- (2010) M. Asghari et al. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE
- Analysis of plates on Winkler foundation by wavelet collocation
- (2010) A. J. M. Ferreira et al. MECCANICA
- Modified Young’s moduli of nano-materials taking into account the scale effects and vacancies
- (2010) A. N. Alizada et al. MECCANICA
- The size-dependent vibration analysis of micro-plates based on a modified couple stress theory
- (2010) E. Jomehzadeh et al. PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES
- A new Kirchhoff plate model based on a modified couple stress theory
- (2009) G.C. Tsiatas INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES
- On bending of strain gradient elastic micro-plates
- (2009) K.A. Lazopoulos MECHANICS RESEARCH COMMUNICATIONS
Add your recorded webinar
Do you already have a recorded webinar? Grow your audience and get more views by easily listing your recording on Peeref.
Upload NowCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now