Enriched Numerical Techniques
Implementation and Applications
- 1st Edition - May 10, 2024
- Editors: Azher Jameel, Ghulam Ashraf Ul Harmain, Indra Vir Singh, Magd Abdel Wahab
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 1 5 3 6 2 - 4
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 1 5 3 6 1 - 7
Enriched Numerical Techniques: Implementation and Applications explores recent advances in enriched numerical techniques, including the extended finite element method, meshfr… Read more
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Enriched Numerical Techniques: Implementation and Applications explores recent advances in enriched numerical techniques, including the extended finite element method, meshfree methods, extended isogeometric analysis and coupled numerical techniques. Techniques for implementation and programming issues are discussed, with other sections discussing applications for enriched numerical techniques in solving a range of engineering problems. The level set methodologies for complex shaped irregularities is presented, as are enriched numerical methodologies for various complex and advanced problems such as Nonlinear Structural Analysis, Fracture and Fatigue in Structures, Elasto-Plastic Crack Growth, Large Deformation Analysis, Frictional Contact Problems, Thermo-Mechanical Problems, Fluid Flow Investigations, Composite Materials and Bio-mechanics.
- Features explanations on how to use enriched numerical techniques to model problems in fracture mechanics, continuum mechanics, fluid flow, and biomechanics
- Explains methods through the use of worked examples throughout
- Provides practical advice on how to tackle programming issues
Graduate students and researchers interested in computational mechanics
1. Level set Methodologies for Complex Material Irregularities
2. Higher-order Enrichment Functions for Fracture Simulation in Isotropic and Orthotropic Material Medium
3. XFEM for Three Dimensional Cracks
4. XFEM for Free Vibration Analyses of Cracked Plate Based on Higher-Order Shear Deformation Theory
5. XFEM for Stability Analysis of Stiffened Trapezoidal Composite Panels
6. Implementation Issues in Element Free Galerkin Method
7. Enriched EFGM for Three Dimensional Cracks
8. Enriched EFGM for Elasto-plastic Crack Growth in Steel Alloys
9. Enriched EFGM for Modelling Large Elasto-Plastic Deformations
10. Modelling of Hertzian Contact Problems by Enriched EFGM
11. Enriched EFGM for Large Elasto-Plastic Deformations: Basic Mathematical Foundations
12. Implementation Issues in Extended Iso-geometric Analysis
13. XIGA for Modelling Strong Discontinuities
14. XIGA for Linear Elastic Materials under Thermo-Mechanical Loading
15. XIGA for Thermal Absorber Coatings
16. Enriched Techniques for Investigating the Behavior of Structural Wood
17. Analysis of Fracture in a Receiver Tube of Parabolic Trough collectors by XFEM
18. XIGA for Fracture Behavior of Isothermally-Cracked SWCNT Reinforced Composite Subjected to Thermo-Mechanical Load
19. Extended Finite Element Method for the Simulation of Edge Dislocations
2. Higher-order Enrichment Functions for Fracture Simulation in Isotropic and Orthotropic Material Medium
3. XFEM for Three Dimensional Cracks
4. XFEM for Free Vibration Analyses of Cracked Plate Based on Higher-Order Shear Deformation Theory
5. XFEM for Stability Analysis of Stiffened Trapezoidal Composite Panels
6. Implementation Issues in Element Free Galerkin Method
7. Enriched EFGM for Three Dimensional Cracks
8. Enriched EFGM for Elasto-plastic Crack Growth in Steel Alloys
9. Enriched EFGM for Modelling Large Elasto-Plastic Deformations
10. Modelling of Hertzian Contact Problems by Enriched EFGM
11. Enriched EFGM for Large Elasto-Plastic Deformations: Basic Mathematical Foundations
12. Implementation Issues in Extended Iso-geometric Analysis
13. XIGA for Modelling Strong Discontinuities
14. XIGA for Linear Elastic Materials under Thermo-Mechanical Loading
15. XIGA for Thermal Absorber Coatings
16. Enriched Techniques for Investigating the Behavior of Structural Wood
17. Analysis of Fracture in a Receiver Tube of Parabolic Trough collectors by XFEM
18. XIGA for Fracture Behavior of Isothermally-Cracked SWCNT Reinforced Composite Subjected to Thermo-Mechanical Load
19. Extended Finite Element Method for the Simulation of Edge Dislocations
- Edition: 1
- Published: May 10, 2024
- Language: English
AJ
Azher Jameel
Dr. Azher Jameel is currently working as Assistant Professor in the Department of Mechanical Engineering, National Institute of Technology Srinagar, India. Prior to that he worked as Assistant Professor at Shri Mata Vaishno Devi University Katra and Islamic University of Science and Technology Awantipora for over 8 years. Dr. Jameel has been actively involved in teaching and research for the past 10 years in the areas of advanced computational mechanics, fracture and fatigue in structures, large elasto-plastic deformations and experimental solid mechanics. His research interests include enriched numerical techniques, meshfree methods, iso-geometric analysis and coupled computational techniques.
Affiliations and expertise
Assistant Professor, Department of Mechanical Engineering, National Institute of Technology, Srinagar, IndiaGU
Ghulam Ashraf Ul Harmain
Dr. Ghulam Ashraf Ul Harmain is Professor in the Department of Mechanical Engineering at National Institute of Technology, Srinagar, India. He has served as the Head of the Department and Dean of Research in addition to various important positions at NIT Srinagar. He has been actively involved in teaching and research for the past 35 years in the areas of advanced computational mechanics, fracture and fatigue in structures, thermo-elasticity, tribology and maintenance, large elasto-plastic deformations and experimental solid mechanics.
Affiliations and expertise
Professor, Department of Mechanical Engineering, National Institute of Technology, Srinagar, IndiaIS
Indra Vir Singh
Dr. Indra Vir Singh is currently working as Professor in the Department of Mechanical Engineering at Indian Institute of Technology Roorkee India. He has been actively involved in teaching and research for the past 20 years in the areas of advanced computational mechanics, fracture and fatigue in structures, large elasto-plastic deformations, experimental fracture mechanics, machine learning, multiscale modelling, gradient damage and phase field modelling.
Affiliations and expertise
Professor, Department of Mechanical Engineering, Indian institute of Technology, Roorkee, IndiaMA
Magd Abdel Wahab
Dr. Magd Abdel Wahab is currently working as a Professor and chair of the Department of Applied Mechanics at Ghent University Belgium. Dr. Wahab is also the adjunct professor of several universities including Ton Duc Thang University, Vietnam, Duy Tan University, Vietnam, HUTECH University, Vietnam and Nanjing Tech University, China. Dr. Wahab has authored several books including Mechanics of Adhesives in Composite and Metal Joints, Finite Elements in Fracture Mechanics and Dynamics and Vibration: An Introduction. He has been actively involved in teaching and research in the areas of advanced finite element analysis, multi-scale analysis, fretting fatigue and wear, automotive and aerospace applications, mechanical and vibrating systems and civil engineering constructions. Dr. Wahab is the editor-in-chief of the journal of Applied Mechanics and also serves as the member of editorial boards of several reputed journals.
Affiliations and expertise
Professor and Chair, Department of Applied Mechanics, Ghent University, BelgiumRead Enriched Numerical Techniques on ScienceDirect