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Composite Materials for Extreme Loading: Proceedings of the Indo-Korean workshop on Multi Functional Materials for Extreme Loading 2021: Lecture Notes in Mechanical Engineering

Editat de Shankar Krishnapillai, Velmurugan R., Sung Kyu Ha
en Limba Engleză Paperback – 7 noi 2022
This book presents the select proceedings of the Indo-Korean workshop on Multi Functional Materials for Extreme Loading, 2021. The book mainly focuses on the very important emerging area of response to extreme loading of composites as well as other materials involving characterization studies, failure mechanisms conditions under quasi static to high strain rates, impact loads, blast loads, crash analysis, and other thermal and fatigue loads. The book also includes other important areas related to special materials and techniques such as 3D printing, nano-composites, multifunctional materials, and high temperature materials. The contents of this book are useful for beginners, industrial designers, academic researchers, and graduate students.
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Specificații

ISBN-13: 9789811641404
ISBN-10: 9811641404
Pagini: 533
Ilustrații: XIX, 533 p. 339 illus., 277 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.77 kg
Ediția:1st ed. 2022
Editura: Springer Nature Singapore
Colecția Springer
Seria Lecture Notes in Mechanical Engineering

Locul publicării:Singapore, Singapore

Cuprins

Chapter 1 - The behaviour of Nickel Foam as Flow Field Plate in PEM Fuel Cell under Mechanical Loads – Numerical Studies.- ​Chapter 2 - Hybrid phase field modelling of dynamic brittle fracture and implementation in FEniCS.- ​Chapter 3 - Coating Material Design for Traction Motor Bearings of Electric Vehicles under Electrical Loads.- ​Chapter 4 - A Comparative Investigation of Energy Storage Potential of Nanoparticles Doped in Black Paint Coated Absorber For Solar Desalination Application.- ​Chapter 5 - Effect of Heating Rate on the Thermomechanical Cycle of Shape Memory Polymers.- ​Chapter 6 - Preparation and optimization of insulin loaded solid lipid nanoparticles for the targeted delivery of insulin to the lungs for diabetes treatment via inhalation.- ​Chapter 7 - Analysis of drill tool wear using acoustic emission signals based on IBS technique for CFRP laminates.- ​Chapter 8 - Eco friendly Sisal Fiber /Poly Lactic Acid CompositeMaterial for Thermal Insulation Applications.- ​Chapter 9 - An Experimental Investigation on Adhesivity of Modified Epoxy at Different Curing Temperature.- ​Chapter 10 - Effect of Eccentricity of Load on buckling behavior of FRP Columns.- ​Chapter 11 - Effect of Annealing Time and Temperature on Dynamic Mechanical Properties of Extrusion Printed Polylactic Acid.- ​Chapter 12 - Laser-Induced Forward Transfer of NiTi for functional application.- ​Chapter 13 - Qualification of 3-D Printed AlSi10Mg Part for Military Airborne Applications.- ​Chapter 14 - Parametric analysis and response surface optimization of surface roughness and cutting rate in the machining using WEDM.- Chapter 15 - Investigation of Strain Localization in Additively Manufactured AlSi10Mg using CPFEM.- ​Chapter 16 - Study on Drilling of Additively Manufactured Inconel 718.- ​Chapter 17 - Extrusion Based 3d-Printing of Bioceramic Structures - A Review.- ​Chapter 18 - A numerical study of ballistic resistance of a single layer ceramic target.- ​Chapter 19 - Ballistic performance of circular and oval shape perforated metallic armour.- ​Chapter 20 - High-velocity impact studies on Dyneema fabric with and without STF -Experimental and Theoretical studies.- ​Chapter 21 - Pressure-Impulse Diagrams for Paper Honeycomb Core Sandwich Panel Using Finite Element Method.- ​Chapter 22 - Effect of Cell Geometry on the Out of Plane Response of Aluminium Honeycomb using Finite Element Method.- ​Chapter 23 - Interaction of Structural Member with Near Field Detonation: Effect on Shock Wave Pattern and Overpressure Profile.- ​Chapter 24 - ​Failure Analysis of Human Body Lower Extremity during Lateral Blast: A Computational Study.- Chapter 25 - Numerical Simulation of an Impact Damper System by Finite Element Method.- ​Chapter 26 - Mechanical Behaviour and Finite Element Analysis of Biomaterials: A Review.- ​Chapter 27 - ​Multi-material System Response to an Impact-induced Shock.- Chapter 28 - Numerical Simulation of Strain-rate Effect of Al Circular Tube under Dynamic Loading Conditions.- ​Chapter 29 - Debonding Effects and Shock Propagation in a Layered System Subjected to High Velocity Impact.- ​Chapter 30 - ​Comparison of Experimental and Operational modal analysis on a flexible silicone tube conveying fluid.- Chapter 31 - Numerical Modeling of Energy Absorption by Plastic Deformation of Aluminum Honeycomb Structure Subjected to Close-Range Blast Event.- ​Chapter 32 - ​Numerical Modelling of V-Shaped Composite Plate Subjected to Blast Loading.- Chapter 33 - Study of Different Materials to Mitigate Blast Energy for the Tunnel Subjected to Buried Explosion.- ​Chapter 34 - ​Free Vibration and Blast Load Analysis of Porous Functionally Graded Plates.

Notă biografică

Dr. Sung Kyu Ha has a Ph.D. in department of mechanical engineering (1988) from Stanford University and joined Hanyang University since 1991. Dr. Ha has been actively collaborating with global composites industry in the areas of aerospace, automotive, wind turbine and oil & gas application. Dr. Ha developed innovative multiscale approach and tools for industry to predict static and fatigue failure behavior and to simulate virtual manufacturing process of composite materials. In 2016, Dr. Ha was awarded the Life Time Achievement in JEC Group for his life-long unmatched contribution to composite industry. In 2019, the HSCL was selected as the Top Prestige Global Industrial University Collaboration Center of Hanyang University.
Dr R Velmurugan is Senior Professor of Aerospace Engineering, IIT Madras. His areas of research include composite materials, nanomaterials, finite element analysis, structural crashworthiness, and impact mechanics.  He has completed many consultancy and sponsored projects from many DRDO laboratories, ISRO centers, government agencies, and many private industries. He has more than 350 research articles and guided many students for Ph.D., M.S., and M.Tech. degrees.  He has delivered many invited lectures in many international and national conferences.
Dr. Shankar Krishnapillai is Professor in the Department of Mechanical Engineering, IIT Madras. He obtained D.Phil. from The University of Oxford (UK) in 1996 from the Department of Engineering Science. Thereafter, he worked at the NASA Johnson Space Center and as faculty in National University of Singapore. He joined IIT Madras in 2003. His areas of interest are machine design, materials, and structural dynamics with a special interest in optimization methods in design. He has 190 research publications and completed 25 Ph.D. and M.S. research students. He has numerous research and consultancy projects from the government as well as private industry in mechanical design. Heis Member of design review committee for the Indian defense research agency.  

Textul de pe ultima copertă

This book presents the select proceedings of the Indo-Korean workshop on Multi Functional Materials for Extreme Loading, 2021. The book mainly focuses on the very important emerging area of response to extreme loading of composites as well as other materials involving characterization studies, failure mechanisms conditions under quasi static to high strain rates, impact loads, blast loads, crash analysis, and other thermal and fatigue loads. The book also includes other important areas related to special materials and techniques such as 3D printing, nano-composites, multifunctional materials, and high temperature materials. The contents of this book are useful for beginners, industrial designers, academic researchers, and graduate students.

Caracteristici

Provides useful and up-to-date knowledge on composites and other materials for extreme loading. Presents important information of new materials and techniques such as 3D printing, nano-composites. Serves as a useful compendium of knowledge for researchers and designers particularly in composite materials.