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Polymer Matrix Composites and Technology [Kietas viršelis]

, (Associate Professor, Department of Pharmaceutical and Biomedical Sciences, University of Georgia),
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Given such properties as low density and high strength, polymer matrix composites have become a widely used material in the aerospace and other industries. Polymer matrix composites and technology provides a helpful overview of these materials, their processing and performance. 

After an introductory chapter, Part 1 reviews the main reinforcement and matrix materials used as well as the nature of the interface between them. Part 2 discusses forming and molding technologies for polymer matrix composites. The final part of the book covers key aspects of performance, including tensile, compression, shear and bending properties as well as impact, fatigue and creep behavior.


Given such properties as low density and high strength, polymer matrix composites have become a widely used material in the aerospace and other industries. Polymer matrix composites and technology provides a helpful overview of these materials, their processing and performance. 

After an introductory chapter, Part 1 reviews the main reinforcement and matrix materials used as well as the nature of the interface between them. Part 2 discusses forming and molding technologies for polymer matrix composites. The final part of the book covers key aspects of performance, including tensile, compression, shear and bending properties as well as impact, fatigue and creep behavior.
Author contact details ix
Preface xi
1 Introduction to polymer matrix composites
1(28)
1.1 Introduction
1(2)
1.2 The definition of composite materials
3(1)
1.3 Naming and classification of composite materials
4(1)
1.4 Molding methods of composite materials
5(1)
1.5 Characteristics of composite materials
6(3)
1.6 Application of composite materials
9(3)
1.7 The progress of composite materials
12(12)
1.8 The important role of composite materials in the 21st century
24(5)
Exercises
25(4)
Part I Component materials
2 Reinforced materials
29(72)
2.1 Introduction
29(3)
2.2 Glass fiber
32(17)
2.3 Carbon fiber
49(22)
2.4 Aramid
71(14)
2.5 Other reinforced fibers
85(12)
Exercises
97(4)
3 Matrix materials
101(68)
3.1 Overview
101(6)
3.2 Basic properties of matrix materials
107(7)
3.3 Technological properties of matrix materials
114(6)
3.4 Matrix resin of composites
120(27)
3.5 High performance resin matrix
147(12)
3.6 Resin matrix used for corrosion-resistant composites
159(10)
Exercises
166(3)
4 Interface of polymer matrix composites
169(44)
4.1 The basic concept of interface
169(1)
4.2 The formation and action mechanism of interface
170(9)
4.3 Damage mechanism of interface
179(8)
4.4 Surface treatment of fiber
187(16)
4.5 Study on composite interface
203(10)
Exercises
209(4)
Part II Processing of composite materials
5 Fabrication of the half-finished products for polymer composites
213(40)
5.1 The manufacturing method of thermoplastic granules
215(8)
5.2 The manufacturing of thermosetting molding compound
223(15)
5.3 Manufacturing method of continuous fiber prepregs for molding composites
238(9)
5.4 Manufacturing of reinforced thermoplastic sheet
247(6)
Exercises
252(1)
6 Forming technology of polymer matrix composites
253(68)
6.1 Overview
253(14)
6.2 Brief introduction of various molding techniques
267(31)
6.3 Mold and auxiliary materials
298(9)
6.4 Curing process of composite materials
307(14)
Exercises
319(2)
7 Molding technology of sandwich structure composites
321(36)
7.1 The molding technology for honeycomb sandwich structure
321(10)
7.2 Molding process of foam sandwich structure
331(26)
Exercises
353(4)
Part III Performance of composite materials
8 Elementary mechanical properties of composite materials
357(98)
8.1 Introduction
357(12)
8.2 Tensile properties of unidirectional fiber composites
369(25)
8.3 Tensile properties of orthogonal fiber composite materials
394(4)
8.4 Compression performance of unidirectional fiber composite materials
398(9)
8.5 The shear behaviors of unidirectional and orthogonal composites
407(10)
8.6 The bending properties of composites
417(5)
8.7 The off-axis mechanical properties of composites
422(13)
8.8 Basic mechanical properties of multi-directional composite materials
435(20)
Exercises
452(3)
9 Other mechanical properties of composite materials
455(32)
9.1 Impact, fatigue, creep, environmental effect, fracture and damage of composites
455(16)
9.2 The basic mechanical properties of sandwich structure composite
471(16)
Exercises
485(2)
10 High frequency dielectric properties of composites and radome
487(26)
10.1 High frequency dielectric properties of glass fiber composites
487(4)
10.2 Radome
491(22)
Exercises
512(1)
11 Other properties of polymer composites
513(34)
11.1 Thermal physical properties
513(10)
11.2 Heat resistance of composites and its applications
523(3)
11.3 Chemical corrosion resistance
526(10)
11.4 Wearability
536(5)
11.5 Flame resistance
541(6)
Exercises
545(2)
References 547(2)
Index 549
Wang Rumin is Professor, Zheng Shuirong and Zheng Yaping are Vice-Professors in the School of Science at Northwestern Polytechnic University, China.