Overview

This book highlights a novel and holistic approach to multiscaled PVA bionanocomposite films used for electrical sensing, medical and packaging applications. With a combination of material characterization and modeling to understand the effect of nanoparticle size and shape, as well as 3D interphase properties and features such as interphase modulus and nanoscale dimensions, this book substantiates how excellent mechanical and thermal properties of these materials are achieved. Also it addresses the importance of using economical and ecofriendly bionanocomposites as potential green materials to support the goal of environmental sustainability with multifunctional properties.

Full Product Details

Author:   Mohanad Mousa ,  Yu Dong
Publisher:   Springer Verlag, Singapore
Imprint:   Springer Verlag, Singapore
Edition:   1st ed. 2021
Weight:   0.302kg
ISBN:  

9789811587733

ISBN 10:   9811587736
Pages:   179
Publication Date:   19 December 2021
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Chapter 1. Introduction 1.1.Biopolymers 1.1.1 Poly(vinyl alcohol) (PVA)   1.2. Nanofillers for bionanocomposites         1.2.1. Layered silicates         1.2.2 Halloysite nanotubes(HNTs)         1.2.3 Bamboo charcoals (BCs)          1.2.4 Other popular nanofillers  1.3.   Processing of bionanocomposites  1.4.   Properties and characterisation of bionanocomposites            1.4.1    Morphological structures            1.4.2   Mechanical properties            1.4.3  Nanomechanical properties            1.4.4. Thermal properties 1.5. Modelling approaches 1.6. Application of bionanocomposites        1.6.1. Electronic and sensor applications        1.6.2 Medical applications        1.6.3 Packaging applications   Chapter 2 Materials, methodology and characterisation techniques 2.1. Materials        2.1.1. Polyvinyl alcohol (PVA)        2.1.2. Nanoparticles                  2.1.2.1. Bamboo charcoals (BCs)                  2.1.2.2  Clay nanoparticles                  2.1.2.3 Halloysite nanotubes (HNTs)         2.2. Fabrication of PVA bionanocomposite films         2.3. Characterisation techniques                 2.3.1. X-ray diffraction (XRD) analysis                 2.3.2. Fourier transform infrared (FTIR) analysis                 2.3.3. Scanning electron microscopy (SEM)                 2.3.4. Differential scanning calorimetry (DSC)                 2.3.5. Thermal gravimetric analysis (TGA)                 2.3.6. Mechanical testing                 2.3.7. Nanomechanical characterisation   Chapter 3 PVA/BC bionancomposite films with particle size effect                    3.1. BC particle analysis and characterisation                             3.1.1. BC composition and surface area                             3.1.2. Particle size and elastic modulus                             3.1.3.  FTIR and XRD analyses                     3.2. Characterisation and properties of PVA/BC bionanocomposites                             3.2.1. FTIR and XRD spectra                             3.2.2. Mechanical properties                             3.2.3. Fracture morphology                             3.2.4. Thermal properties                             3.2.5. Morphological structures and nanomechanical properties                  Chapter 4 PVA bionanocomposite films with different particle shapes and structures                    4.1. FTIR spectra                    4.2. XRD patterns                    4.3. Morphological structures and nanomechanical properties                    4.4. Mechanical properties                    4.5. Fracture morphology                    4.6. Thermal properties   Chapter 5 3D interphase of PVA bionanocomposite films                     5.1. Interphase properties and features                      5.2. Modelling approach                      5.3. Interphase modulus                      5.4. Interphase dimensions                      5.5. Modulus-gradient effect                      5.6. 3D interphase modulus and dimensions                      5.7. Particle debonding                                           Chapter 6 Micromechanical modelling of PVA bionanocomposite films                  6.1. Modelling theory                          6.1.1. Micromechanical models based on nominal and effective volume                                        fractions                           6.1.2. Micromechanical models based on volume fractions of nanofillers and                                      interphase                            6.1.3. Interphase volume fraction                    6.2. Prediction of elastic moduli of PVA bionancomposites   References   Appendices

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Author Information

Mohanad Mousa is currently working at Shatra Technical Institute, Southern Technical University, Iraq after recently graduated with a PhD degree in mechanical engineering from Curtin University, Australia.He was previously an Assistant Lecturer at the Department of Mechanical Engineering, Shatra Technical Institute, Iraq. Mohanad has a wide range of research interests in bionanocomposites, nanomaterials, biopolymers and welding of metals.   Dr. Yu Dong is a Senior Lecturer in Mechanical Engineering, School of Civil and Mechanical Engineering at Curtin University, Australia. He has extensive research expertise in polymer nanocomposites, electrospun nanofibers, green composites, micromechanical modeling, nanomanufacturing and design of experiments. He is a Lead Editor for “Electrospun Polymers and Composites: Ultrafine Materials, Higher Performance Fibers and Wearables”, Elsevier, UK,“Manufacturing, Characterisation and Properties of Advanced Nanocomposites”, MDPI, Switzerland, and “Fillers and Reinforcements for Advanced Nanocomposites”, Elsevier, UK, and a Sole Editor for “Nanostructures: Properties, Production Methods and Applications”, NOVA Science Publishers, USA. Dr. Dong is a Journal Associate Editor for Frontiers in Materials (Polymeric and Composite Materials section) and Applied Nanoscience.

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