Chichester, England : , : Wiley, , 2014

©2014

0-470-71180-9

1-118-67607-6

0-470-71179-5

1 online resource (315 p.)

Wiley series in renewable resources

SCI013000

WuQinglin

HanGuangping

674/.8

Engineered wood

Composite materials

Natural products

Inglese

Includes index.

Includes bibliographical references and index.

Introduction to Wood and Natural Fiber Composites; Contents; Series Preface; Preface; Acknowledgments; 1 Wood and Natural Fiber Composites: An Overview; 1.1 Introduction; 1.2 What Is Wood?; 1.3 Natural Fibers; 1.3.1 Fibers; 1.3.2 Lignocellulosic Materials; 1.3.3 Worldwide Lignocellulosic Fiber Resources; 1.3.4 Wood as a Teaching Example; 1.4 Composite Concept; 1.4.1 Composites Are Important Materials; 1.4.2 What Is a Composite?; 1.4.3 Taxonomy of Matrix Composites; 1.4.4 Laminar Composites; 1.4.5 Taxonomy of Wood and Natural Fiber Composites; 1.4.6 Composite Scale; 1.5 Cellular Solids

1.5.1 Natural and Synthetic Cellular Solids1.5.2 Relative Density; 1.6 Objectives and Organization of This Book; References; 2 Lignocellulosic Materials; 2.1 Introduction; 2.2 Chemical Composition of Lignocellulosic Materials; 2.2.1 Polymers: Structure and Properties; 2.2.2 Lignocellulose; 2.2.3 Cellulose; 2.2.4 Hemicelluloses; 2.2.5 Pectins; 2.2.6 Lignin; 2.2.7 Extractives and Extraneous Materials; 2.3 The Woody Cell Wall as a Multicomponent Polymer System; 2.3.1 Skeletal Framework Polymers; 2.3.2 Reinforced Matrix Theory; 2.3.3

Cell Wall Ultrastructure

2.3.4 Cell Wall Structure Dictates Physical Properties2.3.5 Cell Wall Structure from Molecular to Anatomic Level; 2.4 Anatomical Structure of Representative Plants; 2.4.1 Plant Cell Walls Are Not Solitary Entities; 2.4.2 Structure of Grain Crop Stems; 2.4.3 Structure of Herbaceous Biomass Crop Stems; 2.4.4 Structure of Bast Fiber Stems; 2.4.5 Structure of Woody Monocotyledons; 2.4.6 Wood; 2.5 Comparison of Representative Plant Stems; 2.6 Cellular Solids Revisited; References; 3 Wood as a Lignocellulose Exemplar; 3.1 Introduction

3.2 Wood as a Representative Lignocellulosic Material: Important Physical Attributes3.3 Moisture Interactions; 3.3.1 Moisture Content; 3.3.2 Hygroscopicity; 3.3.3 States of Water in Wood; 3.3.4 Capillary or Free Water; 3.3.5 Shrinking and Swelling due to Moisture Flux; 3.4 Density and Specific Gravity of Wood; 3.4.1 Density of Wood; 3.4.2 Specific Gravity of Wood; 3.5 Wood: A Cellular Solid; 3.5.1 Relative Density of Wood; 3.6 Mechanical Properties; 3.6.1 Compression Strength; 3.6.2 Compression Strength of Wood versus Relative Density; 3.6.3 Mechanical Properties in Context

3.7 Wood Is the Exemplar: Extending Principles to Other Plant MaterialsReferences; 4 Consolidation Behavior of Lignocellulosic Materials; 4.1 Introduction; 4.2 Synthetic Crystalline and Amorphous Polymers; 4.2.1 Polyethylene; 4.2.2 Polystyrene: Isotactic, Syndiotactic, and Atactic; 4.2.3 Degree of Crystallinity, Revisited; 4.2.4 Thermal Softening of Amorphous Polymers: Glass Transition Temperature, Tg; 4.3 Glass Transition Temperature of Wood Polymers; 4.3.1 Glass Transition Temperature of Wood Polymers: Empirical Data; 4.3.2 Kwei Equation: Modeling Tg of Wood Polymers

4.4 Viscoelastic Behavior of Lignocellulosic Materials

"Bringing together widely scattered information on the fundamental concepts and technological applications for the manufacture of wood and natural fiber composites, this reference provides a much needed overview of this rapidly evolving field in a way that is accessible for advanced undergraduates, graduate students, and practicing professionals alike. After first covering the fundamental concepts, the book then moves on to discuss technical applications and finally concludes with a discussion on environmental considerations, sustainability, and methods of evaluating product properties and performance"--

"This book brings together widely scattered information on fundamental concepts and technological applications for the manufacture of wood- and natural fiber composites, providing a much needed and accessible overview of this rapidly evolving field"--

Providence, Rhode Island : , : American Mathematical Society, , [2000]

©2000

0-8218-7850-6

1 online resource (146 p.)

Contemporary mathematics, , 0271-4132 ; ; 260

530.13/3

Geometric quantization

Phase space (Statistical physics)

Inglese

Description based upon print version of record.

Includes bibliographical references.

""Contents""; ""Introduction""; ""Holomorphic methods in analysis and mathematical physics""; ""1. Introduction""; ""2. Basics of holomorphic function spaces""; ""3. Examples of holomorphic function spaces""; ""4. A special property of the Segal-Bargmann and weighted Bergman spaces""; ""5. Canonical commutation relations""; ""6. The Segal-Bargmann transform""; ""7. Quantum mechanics and quantization""; ""8. Toeplitz operators, anti-Wick ordering, and phase space probability densities""; ""9. The Segal-Bargmann transform for compact Lie groups""; ""10. To infinity and beyond""; ""References""