Advanced Composite Materials and Structures
Modeling and Analysis
Herausgeber: Sultan, Mohamed Thariq Hameed; Panda, Subrata Kumar; Kar, Vishesh Ranjan
Advanced Composite Materials and Structures
Modeling and Analysis
Herausgeber: Sultan, Mohamed Thariq Hameed; Panda, Subrata Kumar; Kar, Vishesh Ranjan
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This book bridges the gap between the theoretical concepts and their implementations, especially for the high-performance structures/components related to advanced composite materials. It focusses on the prediction of various structural responses under complex environments and discuses micro-mechanical material modeling of advanced materials.
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This book bridges the gap between the theoretical concepts and their implementations, especially for the high-performance structures/components related to advanced composite materials. It focusses on the prediction of various structural responses under complex environments and discuses micro-mechanical material modeling of advanced materials.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 296
- Erscheinungstermin: 7. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm x 17mm
- Gewicht: 435g
- ISBN-13: 9780367746346
- ISBN-10: 0367746344
- Artikelnr.: 71561698
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 296
- Erscheinungstermin: 7. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm x 17mm
- Gewicht: 435g
- ISBN-13: 9780367746346
- ISBN-10: 0367746344
- Artikelnr.: 71561698
Prof. Ir. Ts. Dr. Mohamed Thariq Bin Haji Hameed Sultan completed his PhD in 2011 from Department of Mechanical Engineering, University of Sheffield, United Kingdom in the Field of Mechanical Engineering. He specializes in the field of Hybrid Composites, Advance Materials, Structural Health Monitoring and Impact Studies. He is also a Professional Engineer (PEng) registered under the Board of Engineers Malaysia (BEM) and he is also a Charted Engineer (CEng) registered with the Institution of Mechanical Engineers (IMechE) United Kingdom. Recently, he was also awarded as the Professional Technologist (PTech) from Malaysian Board of Technologist (MBOT). He has published more than 220 journal articles and published almost 15 books internationally. Dr. Vishesh Ranjan Kar completed his Ph.D. from NIT Rourkela in 2015 as a full-time research scholar (2012-2015) in the field of Computational Solid Mechanics. Currently, he is Assistant Professor in the Department of Mechanical Engineering, NIT Jamshedpur, India. His research interests are Nonlinear Finite Element Method (NFEM), Advanced Composite Structures, Computational Mechanics and Shape Optimization. He authored (and co-authored) over 50 research articles in peer reviewed journals, books and conferences in the field of modeling and analysis of composite structures. Currently, he is handling various research projects as Principle Investigator (and Co-PI) funded by various government agencies. Presently, he is supervising 04 PhD students in the area of advanced composite structures. He is the recipient of Research Award 2016 from VIT University, India; Early Career Research Award 2017 from DST, Government of India; Young Scientist 2019 from Venus International Foundation, India; and Preeminent Researcher Award 2019 from International Institute of Organized Research, India in association with Western Sydney University, Australia. He is a recognized reviewer of many reputed international journals of his domain. He is a life member of Indian Society for Applied Mechanics and few other international engineering societies. His h-index is more than 20 in Google scholar and Scopus. Dr. Subrata Kumar Panda has defended his PhD thesis in the year of 2009 from IIT Kharagpur Department of Aerospace Engineering in the field of Smart Composite Structures. Currently, he is Associate Professor in the Department of Mechanical Engineering, NIT Rourkela, India. His research area comprises of multiscale-multi-physics material modelling and experimental mechanics. He has already published more than 150 articles in peer reviewed international journal including the conference proceeding. He handled three sponsored projects from different Govt. agencies (DRDO, DST and AICTE) as Principal Investigator and two as Co-PI (BRNS, IMPRINT). He has also worked as one of Collaborator from Mechanical Engineering for Centre of Excellence Orthopaedic Tissue Engineering and Rehabilitation. He has already guided eight PhD scholars (six as main/sole supervisor) in different problems relevant to the Smart Composite Structural Modelling and Analysis, Acoustics, Biomechanics. He has also received award of recognition for his contribution in Mechanical Sciences from NIT Rourkela. His h-index is more than 30 in Google Scholar and Scopus. Dr. Jayakrishna is an Associate professor in the School of Mechanical Engineering at the Vellore Institute of Technology University, India. Dr. Jayakrishna's research is focused on the design and management of manufacturing systems and supply chains to enhance efficiency, productivity and sustainability performance. More recent research is in the area of developing tools and techniques to enable value creation through sustainable manufacturing, including methods to facilitate more sustainable product design for closed-loop material flow in industrial symbiotic setup, and developing sustainable products using hybrid bio composites. He has mentored undergraduate and graduate students (2 M.Tech Thesis and 24 B.Tech Thesis) which have so far led to 40 journal publications in leading SCI/ SCOPUS Indexed journals, 17 book chapters, and 85 refereed conference proceedings. Dr. Jayakrishna's team has received numerous awards in recognition for the quality of the work that has been produced. He teaches undergraduate and graduate courses in the manufacturing and industrial systems area and his initiatives to improve teaching effectiveness have been recognized through national awards. He has also been awarded Institution of Engineers (India)-Young Engineer Award in 2019 and Distinguished Researcher Award in the field of Sustainable Systems Engineering in 2019 by International Institute of Organized Research.
1. Multi-Directional Graded Composites: An Introduction
2. Free Vibration Characteristics of Bi-Directional Functionally Graded
Composite Panels
3. Analytical Solution for the Steady-State Heat Transfer Analysis of
Porous Nonhomogeneous Material Structures
4. Effect of Corrugation on the Deformation Behavior of Spatially Graded
Composite Panels
5. Graphene-Magnesium Core-Shell Nanocomposites: Physical, Mechanical,
Thermal, and Electrical Properties
6. Free Vibration of Carbon Nanotube-Reinforced Composite Beams under the
Various Boundary Conditions
7. Transient Characteristics of Carbon Nanotube-Reinforced Composite Plates
under Blast Load
8. Micromechanics-Based Finite Element Analysis of HAp-Ti Biocomposite
Sinusoid Structure Using Homogenisation Schemes
9. Stability Behavior of Biocomposite Structures Using 2D-Finite Element
Approximation
10. Dynamic Analysis of Sandwich Composite Plate Structures with Honeycomb
Auxetic Core
11. Hygrothermoelastic Responses of Sinusoidally Corrugated
Fiber-Reinforced Laminated Composite Structures
12. Flexural Behavior of Shear Deformable FGM Composites with Corrugation:
Higher-Order Finite Element Approximation
13. Multiscale Analysis of Laminates Printed by 3D Printing Fused
Deposition Modeling Method
14. Flexural Behavior of Carbon Nanotube-Reinforced Composites with
Multiple Cutouts
15. Damage Studies in Curved Hybrid Laminates under Pullout Loading
16. Dynamic Behavior of Laminated Composite with Internal Delamination
2. Free Vibration Characteristics of Bi-Directional Functionally Graded
Composite Panels
3. Analytical Solution for the Steady-State Heat Transfer Analysis of
Porous Nonhomogeneous Material Structures
4. Effect of Corrugation on the Deformation Behavior of Spatially Graded
Composite Panels
5. Graphene-Magnesium Core-Shell Nanocomposites: Physical, Mechanical,
Thermal, and Electrical Properties
6. Free Vibration of Carbon Nanotube-Reinforced Composite Beams under the
Various Boundary Conditions
7. Transient Characteristics of Carbon Nanotube-Reinforced Composite Plates
under Blast Load
8. Micromechanics-Based Finite Element Analysis of HAp-Ti Biocomposite
Sinusoid Structure Using Homogenisation Schemes
9. Stability Behavior of Biocomposite Structures Using 2D-Finite Element
Approximation
10. Dynamic Analysis of Sandwich Composite Plate Structures with Honeycomb
Auxetic Core
11. Hygrothermoelastic Responses of Sinusoidally Corrugated
Fiber-Reinforced Laminated Composite Structures
12. Flexural Behavior of Shear Deformable FGM Composites with Corrugation:
Higher-Order Finite Element Approximation
13. Multiscale Analysis of Laminates Printed by 3D Printing Fused
Deposition Modeling Method
14. Flexural Behavior of Carbon Nanotube-Reinforced Composites with
Multiple Cutouts
15. Damage Studies in Curved Hybrid Laminates under Pullout Loading
16. Dynamic Behavior of Laminated Composite with Internal Delamination
1. Multi-Directional Graded Composites: An Introduction
2. Free Vibration Characteristics of Bi-Directional Functionally Graded
Composite Panels
3. Analytical Solution for the Steady-State Heat Transfer Analysis of
Porous Nonhomogeneous Material Structures
4. Effect of Corrugation on the Deformation Behavior of Spatially Graded
Composite Panels
5. Graphene-Magnesium Core-Shell Nanocomposites: Physical, Mechanical,
Thermal, and Electrical Properties
6. Free Vibration of Carbon Nanotube-Reinforced Composite Beams under the
Various Boundary Conditions
7. Transient Characteristics of Carbon Nanotube-Reinforced Composite Plates
under Blast Load
8. Micromechanics-Based Finite Element Analysis of HAp-Ti Biocomposite
Sinusoid Structure Using Homogenisation Schemes
9. Stability Behavior of Biocomposite Structures Using 2D-Finite Element
Approximation
10. Dynamic Analysis of Sandwich Composite Plate Structures with Honeycomb
Auxetic Core
11. Hygrothermoelastic Responses of Sinusoidally Corrugated
Fiber-Reinforced Laminated Composite Structures
12. Flexural Behavior of Shear Deformable FGM Composites with Corrugation:
Higher-Order Finite Element Approximation
13. Multiscale Analysis of Laminates Printed by 3D Printing Fused
Deposition Modeling Method
14. Flexural Behavior of Carbon Nanotube-Reinforced Composites with
Multiple Cutouts
15. Damage Studies in Curved Hybrid Laminates under Pullout Loading
16. Dynamic Behavior of Laminated Composite with Internal Delamination
2. Free Vibration Characteristics of Bi-Directional Functionally Graded
Composite Panels
3. Analytical Solution for the Steady-State Heat Transfer Analysis of
Porous Nonhomogeneous Material Structures
4. Effect of Corrugation on the Deformation Behavior of Spatially Graded
Composite Panels
5. Graphene-Magnesium Core-Shell Nanocomposites: Physical, Mechanical,
Thermal, and Electrical Properties
6. Free Vibration of Carbon Nanotube-Reinforced Composite Beams under the
Various Boundary Conditions
7. Transient Characteristics of Carbon Nanotube-Reinforced Composite Plates
under Blast Load
8. Micromechanics-Based Finite Element Analysis of HAp-Ti Biocomposite
Sinusoid Structure Using Homogenisation Schemes
9. Stability Behavior of Biocomposite Structures Using 2D-Finite Element
Approximation
10. Dynamic Analysis of Sandwich Composite Plate Structures with Honeycomb
Auxetic Core
11. Hygrothermoelastic Responses of Sinusoidally Corrugated
Fiber-Reinforced Laminated Composite Structures
12. Flexural Behavior of Shear Deformable FGM Composites with Corrugation:
Higher-Order Finite Element Approximation
13. Multiscale Analysis of Laminates Printed by 3D Printing Fused
Deposition Modeling Method
14. Flexural Behavior of Carbon Nanotube-Reinforced Composites with
Multiple Cutouts
15. Damage Studies in Curved Hybrid Laminates under Pullout Loading
16. Dynamic Behavior of Laminated Composite with Internal Delamination