Table of Contents
Part I: Processing and surface treatments to compose the interface in natural fibre composites
Chapter 1: Modifying cellulose fiber surfaces in the manufacture of natural fiber composites
Chapter 2: Interface engineering through matrix modification in natural fibre composites
2.2 Motivation behind using natural fibre composites and trends
2.3 Challenges in using natural fibre composites: the problem of low adhesion
2.4 Matrix modification, coupling mechanism and efficiency of bonding
2.5 Effect of matrix modification on interfacial properties
2.6 Effect of matrix modification on macroscopic properties
2.8 Sources of further information and advice
Chapter 3: Preparation of cellulose nanocomposites
3.2 Hierarchical structure of natural fibers
3.4 Preparation of cellulose nanocrystals
3.5 Processing of cellulose nanocomposites
3.6 Properties of cellulose nanocomposites
3.7 Conclusions and future trends
4.3 Analysis of natural fibers and surface treatments
4.5 Interfaces in polymer composites
5.2 Methods for characterization of single-fibre–polymer matrix interfacial adhesion
5.3 Review of lignocellulosic polymer fibre–matrix interfacial adhesion data
6.1 Mechanical testing of fibres
6.2 Statistical treatment of single-fibre strength
6.3 Mechanical properties of untreated single fibres
6.4 Influence of fibre treatment on mechanical properties of natural fibres
Part II: Testing interfacial properties in natural fibre composites
Chapter 7: Electrokinetic characterisation of interfacial properties of natural fibres
7.2 Streaming potential measurements
7.3 Electrokinetic properties of natural fibres
Chapter 8: Mechanical assessment of natural fiber composites
8.2 Materials and experimental procedures
Chapter 9: Thermomechanical and spectroscopic characterization of natural fibre composites
9.3 Interfaces in natural fibre composites and their characterization
Chapter 10: Assessing the moisture uptake behavior of natural fibres
10.2 Methods of quantifying moisture uptake of natural fibres
10.3 Moisture uptake behaviour of various natural fibres
Chapter 11: Creep and fatigue of natural fibre composites
11.2 Fundamentals of the creep test
11.3 Life prediction of natural fibre composites using long-term creep analysis
11.5 Nonlinear viscoelastic response
11.8 Factors affecting the fatigue life of natural fibre composites
Chapter 12: Impact behavior of natural fiber composite laminates
12.3 Testing methods and instruments
12.4 Interpretation of the experimental data
12.5 Nondestructive inspection (NDI) ultrasonic techniques
13.1 Introduction to Raman spectroscopy
13.2 Raman spectroscopy and measurements of molecular deformation in polymer fibres
13.3 X-ray diffraction and stress analysis in fibres and composites