Computational Structural Mechanics Static and Dynamic Behaviors
Auteurs : Chakraverty Snehashish, Pradhan Karan Kumar
Computational Structural Mechanics: Static and Dynamic Behaviors provides a cutting-edge treatment of functionally graded materials and the computational methods and solutions of FG static and vibration problems of plates. Using the Rayleigh-Ritz method, static and dynamic problems related to behavior of FG rectangular, Levy, elliptic, skew and annular plates are discussed in detail. A thorough review of the latest research results, computational methods and applications of FG technology make this an essential resource for researchers in academia and industry.
1. Overview of functionally graded materials2. Rayleigh-Ritz Method3. DQ and GDQ Methods4. Finite Element Method5. Static analysis of FG beams6. Vibration of FG beams7. Static Analysis of FG Plates8. Vibration of thick rectangular Plates9. Vibration of FG skew plates10. Vibration of FG Annular plates11. Vibration of FG plates on elastic foundations
Karan Kumar Pradhan is the Assistant Professor (NPIU, TEQIP-III) in Department of Basic Science, Parala Maharaja Engineering College, Berhampur (Odisha). Formerly, he was the Senior Research Fellow, Department of Mathematics, National Institute of Technology, Rourkela, India and also the recipient of SERB National Post-Doctoral Fellowship. KK Pradhan’s research interests are numerical modeling
- Explains application-oriented treatments of the functionally graded materials used in industry
- Addresses relevant algorithms and key computational techniques
- Provides numerical solutions of static and vibration problems associated with functionally graded beams and plates of different geometries
Date de parution : 09-2018
Ouvrage de 336 p.
15.2x22.8 cm
Thèmes de Computational Structural Mechanics :
Mots-clés :
Admissible function; Assistive technologies; Bending analysis; Classical plate theory; Computational algorithm; Differential Quadrature; Discretization; Edge supports; Eigenvalue problem; FG annular plate; FG elliptic plate; FG skew plate; FG triangular plate; Finite Element Method; Functionally graded beam; Functionally graded material; Generalized differential quadrature; Governing equation; Human computer interactions; Laplace transform; Maximum deflection; Mechanical energies; Natural frequencies; Rayleigh�Ritz method; Static analysis; Static bending; Static problem; User centred design; User involvement; User profile; Vibration