Advances in Computational Coupling and Contact Mechanics
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Nonfiction, Science & Nature, Technology, Fracture Mechanics, Engineering, Mechanical
| Author: | Luis Rodríguez-Tembleque, M H Ferri Aliabadi | ISBN: | 9781786344793 |
| Publisher: | World Scientific Publishing Company | Publication: | April 20, 2018 |
| Imprint: | WSPC (EUROPE) | Language: | English |
| Author: | Luis Rodríguez-Tembleque, M H Ferri Aliabadi |
| ISBN: | 9781786344793 |
| Publisher: | World Scientific Publishing Company |
| Publication: | April 20, 2018 |
| Imprint: | WSPC (EUROPE) |
| Language: | English |
This book presents recent advances in the field of computational coupling and contact mechanics with particular emphasis on numerical formulations and methodologies necessary to solve advanced engineering applications.
Featuring contributions from leading experts and active researchers in these fields who provide a detailed overview of different modern numerical schemes that can be considered by main numerical methodologies to simulate interaction problems in continuum mechanics.
A number of topics are addressed, including formulations based on the finite element method (FEM) and their variants (e.g. isogeometric analysis or standard and generalized high-order FEM: hp-FEM and GFEM, respectively), the boundary element method (BEM), the material point method (MPM) or the recently proposed finite block method (FBM), among many more.
Written with PhD students in mind, Advances in Computational Coupling and Contact Mechanics also includes the most recent numerical techniques which could be served as reference material for researchers and practicing engineers. All chapters are self-contained and can be read independently, with numerical formulations accompanied by practical engineering applications.
Contents:
- Frictional Mortar Formulation for Large Inelastic Deformation Problems (T Doca and F M A Pires)
- Standard and Generalized High-order Mortar-based Finite Elements in Computational Contact Mechanics (A P C Dias, S P B Proenca and M L Bittencourt)
- A Large Deformation Frictionless Contact Treatment In NURBS-based Isogeometric Analysis (J Kopačka, D Gabriel, R Kolman and J Plešek)
- Treatment of Non-matching Interfaces in Partitioned Fluid–Structure Interaction Problems (J A González and K C Park)
- An Eulerian-based Thermo-flexible Multi-body Approach for Simulating Rig Testing of Disc Brakes (N Strömberg)
- Nonlinear Analysis with Functionally Graded Materials by Finite Block Method (J Li, J Jin, J J Yang, T Huang and P H Wen)
- A Coupled Finite Element Material Point Method for Large Deformation Problems (Y Lian and X Zhang)
- Fracture and Contact in the Material Point Method: New Approaches and Applications (M A Homel and E B Herbold)
- A Cohesive-frictional Grain-boundary Technique for Microstructural Analysis of Polycrystalline Materials (I Benedetti)
- Piezoelectric and Magneto-electro-elastic Frictional Contact Modelling (L Rodríguez-Tembleque, F C Buroni, A Sáez and M H Ferri Aliabadi)
Readership: PhD students in computational mechanics; researchers and practicing engineers.
0
This book presents recent advances in the field of computational coupling and contact mechanics with particular emphasis on numerical formulations and methodologies necessary to solve advanced engineering applications.
Featuring contributions from leading experts and active researchers in these fields who provide a detailed overview of different modern numerical schemes that can be considered by main numerical methodologies to simulate interaction problems in continuum mechanics.
A number of topics are addressed, including formulations based on the finite element method (FEM) and their variants (e.g. isogeometric analysis or standard and generalized high-order FEM: hp-FEM and GFEM, respectively), the boundary element method (BEM), the material point method (MPM) or the recently proposed finite block method (FBM), among many more.
Written with PhD students in mind, Advances in Computational Coupling and Contact Mechanics also includes the most recent numerical techniques which could be served as reference material for researchers and practicing engineers. All chapters are self-contained and can be read independently, with numerical formulations accompanied by practical engineering applications.
Contents:
- Frictional Mortar Formulation for Large Inelastic Deformation Problems (T Doca and F M A Pires)
- Standard and Generalized High-order Mortar-based Finite Elements in Computational Contact Mechanics (A P C Dias, S P B Proenca and M L Bittencourt)
- A Large Deformation Frictionless Contact Treatment In NURBS-based Isogeometric Analysis (J Kopačka, D Gabriel, R Kolman and J Plešek)
- Treatment of Non-matching Interfaces in Partitioned Fluid–Structure Interaction Problems (J A González and K C Park)
- An Eulerian-based Thermo-flexible Multi-body Approach for Simulating Rig Testing of Disc Brakes (N Strömberg)
- Nonlinear Analysis with Functionally Graded Materials by Finite Block Method (J Li, J Jin, J J Yang, T Huang and P H Wen)
- A Coupled Finite Element Material Point Method for Large Deformation Problems (Y Lian and X Zhang)
- Fracture and Contact in the Material Point Method: New Approaches and Applications (M A Homel and E B Herbold)
- A Cohesive-frictional Grain-boundary Technique for Microstructural Analysis of Polycrystalline Materials (I Benedetti)
- Piezoelectric and Magneto-electro-elastic Frictional Contact Modelling (L Rodríguez-Tembleque, F C Buroni, A Sáez and M H Ferri Aliabadi)
Readership: PhD students in computational mechanics; researchers and practicing engineers.
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