Interfacial Bonding Characteristics in Natural Fiber Reinforced Polymer Composites : Fiber-Matrix Interface in Biocomposites.

Detaylı Bibliyografya
Yazar: Krishnasamy, Senthilkumar
Diğer Yazarlar: Hemath Kumar, Mohit, Parameswaranpillai, Jyotishkumar, Mavinkere Rangappa, Sanjay, Siengchin, Suchart
Materyal Türü: e-Kitap
Dil:İngilizce
Baskı/Yayın Bilgisi: Singapore : Springer Singapore Pte. Limited, 2024.
Edisyon:1st ed.
Seri Bilgileri:Composites Science and Technology Series
Konular:
Electronic books.
Online Erişim:Full-text access
İçindekiler:
  • Intro
  • Contents
  • About the Editors
  • Introduction to Interfacial Bonding Characteristics of Natural Fiber-Reinforced Composites
  • 1 Introduction
  • 2 Interfacial Bonding of Natural Fiber Composites
  • 2.1 Abaca Fiber Composites
  • 2.2 Bamboo Fiber Composites
  • 2.3 Coir Fiber Composites
  • 2.4 Aramid Fiber Composites
  • 2.5 Sugar Palm Fiber Composites
  • 2.6 Basalt Fiber
  • 2.7 Root Fiber
  • 3 Interfacial Bonding of Hybrid Composites
  • 3.1 Flax/Wool Twine Hybrid Composites
  • 3.2 Jute/Kenaf Fiber
  • 3.3 Agave Tequilana Bagasse-Fibers
  • 4 Conclusion
  • References
  • New Methodologies to Improve the Interfacial Interaction in Natural Fibre Polymer Composites
  • 1 Introduction
  • 2 The Fibre-Matrix Interphase
  • 3 Fibre Surface Modification Methods
  • 3.1 Physical/Physicochemical Methods of Modification
  • 3.2 Chemical Modifications
  • 3.3 New Methodologies
  • References
  • Morphology of the Interfacial Interface of the Natural Fibre Reinforced Polymer Composites
  • 1 Introduction
  • 2 Lignocellulosic Fibers
  • 3 Polymeric Matrices
  • 3.1 Thermoplastics
  • 3.2 Thermosets
  • 4 Nterface Mechanisms
  • 4.1 Mechanical Interlocking
  • 4.2 Physical Adhesion (Interdiffusion)
  • 4.3 Electrostatic Adhesion
  • 4.4 Chemical Adhesion
  • 5 Natural Fiber Surface Modification
  • 5.1 Effect of Surface Treatment on Water Absorption
  • 5.2 Physical Treatments
  • 5.3 Chemical Treatments
  • 6 Conclusions
  • References
  • Spectroscopic Analysis of Interfacial Adhesion in Natural Fibre Polymer Composites
  • 1 Introduction
  • 1.1 Polymer Reinforced Composites
  • 1.2 Interfacial Region Between Natural Fiber and Polymer in Composite
  • 1.3 Mechanism of Fibre-Matrix Interaction
  • 1.4 Surface Modification to Improvise Inter-Facial Interaction
  • 1.5 Spectroscopic Analysis of Fibre Surfaces and Interfacial-Interaction
  • 2 Conclusion and Future Perspective.
  • References
  • Effect of Interfacial Bonding Characteristics on the Tensile Properties of Kenaf Fiber Reinforced Composites
  • 1 Introduction
  • 2 Whole Stem Fiber
  • 3 Chemical Treatment
  • 4 Woven Kenaf Fiber
  • 5 Kenaf With Polyethylene
  • 6 Fiber Loading
  • 7 Polyester With Kenaf
  • 8 Conclusion
  • References
  • Effect of Interfacial Bonding Characteristics of Flexural Fractured Pineapple Leaf Fibre Reinforced Composites
  • 1 Introduction
  • 2 Materials and Methods
  • 2.1 Materials
  • 2.2 Hand Layup Process
  • 2.3 Mechanical Testing
  • 3 Result and Discussion
  • 3.1 Mechanical Strength
  • 3.2 Absorption Studies
  • 3.3 SEM
  • 4 Conclusion
  • References
  • Effect of Interfacial Bonding Characteristics on Impact Strength of Jute Fiber Reinforced Composites
  • 1 Introduction
  • 1.1 Polymer Matrix Composite
  • 1.2 Jute Fiber Polymer Composite
  • 2 Type of Impact Test
  • 3 Effect of Impact Test on Interfacial Bonding
  • 3.1 Short and Long Fiber Composite
  • 3.2 Influence of Fiber, Matrix, Fillers, and Other Reinforcement
  • 3.3 Low-Velocity Impact Test (Velocity-0 to 11 m/s)
  • 3.4 Ballistic Impact Test (Velocity-Above 500 m/s)
  • 4 Applications
  • 5 Summary
  • References
  • Effect of Interfacial Bonding Characteristics on Dynamic Mechanical Analysis of Cotton Fiber Reinforced Composites
  • 1 Introduction
  • 2 Interfacial Bonding
  • 3 Effect of Interface Adhesion on Thermomechanical Properties
  • 4 Conclusions
  • References
  • Effect of Interfacial Bonding Characteristics on Fatigue Behavior of Hemp Fibre Reinforced Polymer Composites
  • 1 Introduction
  • 2 Hemp Fiber Reinforced Polymer Composite
  • 2.1 Hemp Fiber
  • 2.2 Polymer Matrices
  • 3 HFRPs Fabrication Techniques
  • 3.1 Hand Lay-Up Technique
  • 3.2 Spray-Up Technique
  • 3.3 Filament Winding Technique
  • 3.4 Pultrusion Technique
  • 3.5 Resin Transfer Molding (RTM) Technique.
  • 3.6 Vacuum Assisted Resin Transfer Molding (VARTM) Technique
  • 3.7 Vacuum Bagging Technique
  • 3.8 Compression Molding Technique
  • 3.9 Injection Molding Technique
  • 4 Factors Affecting Interfacial Bonding
  • 4.1 Mechanical Interlocking
  • 4.2 Chemical Bonding
  • 4.3 Electrostatic Adhesion
  • 4.4 Intermolecular Interaction
  • 5 Effects of Interfacial Bonding on Fatigue Behavior
  • 6 Techniques to Improve Interfacial Bonding
  • 6.1 Fiber Modification Techniques
  • 6.2 Matrix Modification Techniques
  • 7 Fatigue Behavior of HFRPs
  • 7.1 Fatigue Behaviors of HFRPs
  • 7.2 Effect of the Fiber Characteristics on Fatigue Behavior
  • 7.3 Static Test
  • 7.4 Fatigue Test
  • 7.5 S-N Diagram
  • 7.6 Hysteresis Loop Analysis
  • 7.7 Constant Life Diagram
  • 8 Challenges in HFRPs
  • 9 Conclusion and Future Perspective
  • References
  • Effect of Interfacial Bonding Characteristics on Physical, Mechanical and Fire Performance of Bamboo Fibre Reinforced Composites
  • 1 Introduction of Bamboo
  • 2 Economic and Socio-economic Aspects of Bamboo
  • 3 Fiber Matrix Interaction in Composites
  • 4 Bamboo as Reinforcement in Composites
  • 4.1 Bamboo Fibers and Its Composites' Physical and Mechanical Performance
  • 4.2 Bamboo Fibers and Its Composites' Thermal and Fire Performance
  • 5 Applications
  • 6 Conclusion and Future Perspectives
  • References
  • Effect of Interfacial Bonding Characteristics on Fire Performance of Flax Fiber Reinforced Composites
  • 1 Introduction
  • 2 Natural Fibers
  • 3 Interfacial Bonding Characteristics
  • 4 Compatibility Between Flax Fiber and Polymers
  • 5 Fire Performance of Treated Flax Composites
  • 6 Expectations and Comments on the Interfacial Bonds and Effectiveness in Flax Fibers Reinforced Polymers
  • References
  • Effect of Interfacial Bonding Characteristics on Electrical Properties of Natural Fiber Reinforced Polymeric Matrix Composite.
  • 1 Introduction
  • 2 Natural Fibers and Matrix
  • 2.1 Natural Fibers
  • 2.2 Matrix
  • 2.3 Natural Fiber Composite
  • 2.4 Conductive Fillers
  • 3 Interfacial Bonding (IFB) Betwixt the Fibers and the Matrix [25]
  • 3.1 Accouterment of Interfacial Bonding of Matrix and Fibers on Electrical Properties [31]
  • 3.2 Electrical Properties of Natural Fibers [37]
  • 3.3 Multifarious Electrical Characteristics of Composites Made of Natural Fibers [50]
  • 4 Accouterments of DestituteIFBbetwixt the Natural Fibers and the Matrix
  • 4.1 Formation of Conductive Filaments in Natural Fiber Composites
  • 4.2 Formation of Conductive Anodic Filament (CAF) [84]
  • 4.3 Natural Fiber and Resin Interface and Interphase for Electrical Properties
  • 5 Conclusions
  • References
  • Surface Modification and Different Recycling Techniques of Natural Fibre Reinforced Polymer Matrix Composites to Overcome Current &amp
  • Future Challenges
  • 1 Introduction
  • 2 Matrixes Used for the Preparation of NFRPMC
  • 2.1 Petroleum-Based Matrix
  • 3 Recent Market Trends of NFRPMC
  • 4 Challenges in Using Natural Fibres as Reinforcement
  • 5 The Thermal Resistance of NFRPMC
  • 6 Fire Resistance of NFRPMC
  • 7 Surface Treatment of Natural Fibres
  • 7.1 Physical Treatment Method
  • 7.2 Chemical Treatment Methods
  • 8 Future Challenges of NFRPMC &amp
  • Their Possible Solutions
  • 8.1 Inferior Properties of Natural Fibre
  • 8.2 Challenges in Composite Processing
  • 8.3 Issues with Composite Performance
  • 8.4 Lack of Product Diversification
  • 9 Recycling, Biodegradability and Circular Economy Issues
  • 9.1 Recycling of Natural Fibre-Reinforced Composites
  • 10 Conclusion
  • References
  • Effect of Interfacial Bonding Characteristics of Chemically Treated of Various Natural Fibers Reinforced Polymeric Matrix Composites
  • 1 Introduction
  • 2 Characteristics of Natural Fibers.
  • 3 Natural Fiber Modifications
  • 3.1 Alkaline Treatment
  • 3.2 Silane Treatment
  • 3.3 Acetylation Treatment
  • 3.4 Benzoylation Treatment
  • 3.5 Peroxide Treatment
  • 3.6 Isocyanate Treatment
  • 3.7 Maleated Coupling Agent
  • 3.8 Sodium Chlorite Treatment
  • 4 Interfacial Bonding Characteristics of Chemically Treated Various Natural Fibers-Reinforced Polymer Matrix Composites
  • 4.1 Kenaf Fiber-Reinforced Composite
  • 4.2 Bagasse Fiber-Reinforced Composite
  • 4.3 Jute Fiber-Reinforced Composite
  • 4.4 Coir Fiber-Reinforced Composite
  • 4.5 Sisal Fiber-Reinforced Composite
  • 5 Summary
  • References
  • Effect of Fiber Dosage and Chemical Treatment on the Vibrational Behavior of Luffa/ USP Composite
  • 1 Introduction
  • 2 Experimental Details
  • 2.1 NaOH Treatment
  • 2.2 Fabrication of Composite Material
  • 2.3 Mechanical Properties
  • 2.4 Modal Analysis
  • 2.5 Damping Factor
  • 3 Result and Discussion
  • 3.1 Mechanical Properties
  • 3.2 Natural Frequency
  • 3.3 Damping Factor of Composites
  • 4 Conclusion
  • References.

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