应用高分子材料王者辉化学工业出版社 9787122265944

正版旧书里面部分笔记内容完好可正常使用旧书不附带光盘

作者: 王者辉
出版社: 化学工业出版社
ISBN: 9787122265944

出版时间: 2016-08
装帧: 线装
页数: 294页

作者: 王者辉
出版社: 化学工业出版社

ISBN: 9787122265944
出版时间: 2016-08

装帧: 线装
页数: 294页

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编号：3827197
ISBN：9787122265944[十位:]
作者：王者辉
出版社：化学工业出版社
出版日期：2016年08月
页数：294
定价：88.00 元
参考重量：0.560Kg
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如图书附带、磁带、学习卡等请咨询店主是否齐全* 图书目录 *Chapter 1 Fundamentals of Polymer Science / 1
1.1 Introduction　/　1
1.1.1 Writing Formulas for Polymeric Macromolecules　/　1
1.1.2 Properties of Macromolecules　/　3
1.1.3 Three Factors that Influence the Degree of Crystallinity　/　4
1.1.4 Regio and Stereo Isomerization in Macromolecules　/　6
1.2 Synthesis of Addition Polymers　/　7
1.2.1 Radical Chain-Growth Polymerization　/　8
1.2.2 Cationic Chain-Growth Polymerization　/　10
1.2.3 Anionic Chain-Growth Polymerization　/　10
1.2.4 Ziegler-Natta Catalytic Polymerization　/　11
1.3 Copolymers　/　12
1.3.1 Addition Copolymerization　/　12
1.3.2 Block Copolymerization　/　13
1.4 Condensation Polymers　/　13
1.4.1 Characteristics of Condensation Polymers　/　13
1.4.2 Thermosetting vs. Thermoplastic Polymers　/　16
1.5 Structure-Property Relationship　/　17
1.5.1 Linearity, Branching and Networking　/　17
1.5.2 Molar Cohesion, Polarity and Crystallinity　/　18
1.5.3 Role of Molecular Symmetry　/　18
1.5.4 Role of Chemical Modification in Effecting Internal Plasticization　/　19
1.5.5 Copolymerization and Internal Plasticization　/　19
1.5.6 Effect of Inclusion of Flexible Inter-unit Linkages and Rigid Bulky Groups　/　19
1.5.7 Effect of Temperature　/　21
1.5.8 Survey of Deformation Patterns in the Amorphous State　/　21
1.5.9 Transitions and Rubbery and Flow Regions　/　22
1.5.10 Property Demand and Polymer Applications　/　23
1.6 The Age of Plastics　/　25
1.7 The Law of Unintended Consequences　/　26
1.8 Recycling and Disposal　/　27
1.9 Biodegradable Polymers　/　29
Chapter 2 Plastics and Plasticizers / 33
2.1 Plasticizers: an Introduction　/　33
2.2 Early Plasticizers　/　34
2.3 Theory: Mechanism of Plasticizer Effect on the Polymer　/　34
2.4 Phthalate Plasticizers　/　35
2.5 The Phthalate Plasticizer Market　/　35
2.6 Health Issues in the Use of Phthalate Plasticizers: Are They Safe?　/　37
2.6.1 Evidence?　/　38
2.6.2 What's Being Done in the Meantime?　/　39
2.7 Health or Hype?　/　39
2.8 Plastics in Packaging　/　40
2.8.1 Introduction　/　40
2.8.2 Types of Plastics Used in Packaging　/　42
2.8.3 Plastic vs. the Alternatives　/　48
2.8.4 Reusing Plastic Packaging　/　49
2.8.5 Recycling Plastic Packaging　/　49
2.8.6 Conclusion　/　51
Chapter 3 Polymer Materials Used in Automobiles / 53
3.1 Introduction　/　53
3.2 Uses of Polymer Materials in an Automobile　/　53
3.2.1 Fuel Tank　/　53
3.2.2 Exterior　/　55
3.2.3 Interior　/　58
3.2.4 Polymers in Car Engine Manifolds and Power Trains　/　59
3.2.5 Conclusion　/　60
3.3 Car Tires　/　61
3.3.1 Introduction　/　61
3.3.2 Tire Production　/　62
3.3.3 The Chemistry of Tires　/　65
3.3.4 Brass Wire Adhesion　/　67
3.3.5 Disposal and Recycling of Used Tires　/　69
3.3.6 Tread Separation Problem Overview　/　69
3.3.7 Lawsuit Against Firestone and Ford Motor Co.　/　71
3.3.8 Conclusion　/　72
3.4 Kapton(r) Wiring　/　72
3.4.1 Introduction　/　72
3.4.2 Properties of Kapton(r)　/　74
3.4.3 Uses of Kapton(r)　/　74
3.4.4 Degradation of Kapton(r) and Other Polymers　/　76
3.4.5 Insulation Requirements for Wires　/　77
Chapter 4 Polymer Materials in Medicine / 79
4.1 Introduction　/　79
4.2 Polymer Materials in Medicine　/　80
4.2.1 A Brief History of Polymer Materials in Medicine　/　80
4.2.2 Cellophane　/　81
4.2.3 PGA, PLA, and PLGA　/　82
4.2.4 Polydimethyl Siloxane (PDMS)　/　83
4.2.5 Polyethylene and Poly (methyl methacrylate) (PMMA)　/　84
4.2.6 Polytetrafluoroethylene (PTFE)　/　84
4.2.7 Polyurethane　/　85
4.2.8 Conclusion　/　86
4.3 Contact Lens Polymers　/　86
4.3.1 The History of Contact Lenses　/　87
4.3.2 How Contact Lenses Work　/　87
4.3.3 Why Do People Wear Contact Lenses　/　88
4.3.4 Biocompatibility and Contact Lens Comfort　/　89
4.3.5 Manufacturing of Contact Lenses　/　90
4.3.6 Hard Contact Lenses　/　91
4.3.7 Soft Contact Lenses　/　93
4.3.8 Problems Caused by Contact Lens Use　/　94
4.3.9 Conclusion　/　95
4.4 Silicone Implants　/　95
4.4.1 History　/　96
4.4.2 Silicone Implants　/　96
4.4.3 Advantages　/　97
4.4.4 Disadvantages　/　97
4.4.5 Concerns　/　99
4.4.6 Companies Involved in the Production of Silicone Breast Implants　/　100
4.5 Tablet Coating　/　100
4.5.1 Drug Release Paterns　/　101
4.5.2 Types of Coatings　/　103
4.5.3 Polymers Used for Film-Coatings (Film Formers)　/　104
4.5.4 Equipment　/　106
4.5.5 The Coating Process　/　109
4.5.6 Spray Variables　/　112
4.5.7 Formulation of Polymeric Coatings　/　116
Chapter 5 Polymer Processing / 120
5.1 Extrusion　/　120
5.2 Film Blowing　/　121
5.3 Sheet Thermoforming　/　122
5.3.1 Thin-gauge and Heavy-gauge (thick) Thermoforming　/　124
5.3.2 Engineering　/　124
5.4 Blow Molding　/　125
5.4.1 History of Blow Molding　/　126
5.4.2 Typologies of Blow Molding　/　126
5.5 Compression Molding　/　128
5.6 Transfer Molding　/　130
5.7 Injection Molding　/　131
5.7.1 Injection Molding Process　/　133
5.7.2 Methodology of Unit Process Life Cycle Inventory Model (UPLCI)　/　136
5.7.3 Injection Molding Process Energy Characteristics　/　136
5.7.4 Parameters Effecting the Energy Required for Brake Forming　/　137
5.7.5 Method of Quantification for Mass Loss　/　142
5.7.6 Manufacturers Reference Data　/　144
5.7.7 Problems Encountered in Injection Molding　/　145
5.7.8 Summary　/　145
5.8 Paints and Coatings　/　146
5.8.1 Paint　/　146
5.8.2 Clear Finishes　/　151
5.8.3 Other Coatings　/　152
5.8.4 Surface Cleaning　/　153
5.8.5 Superior Performance Aerospace coatings　/　155
5.9 Developments in Polymer Coatings for Dipped Goods　/　157
5.9.1 Key Requirements to Consider　/　159
5.9.2 Polymer Coating Choices　/　159
5.9.3 Manufacturing Considerations　/　161
5.9.4 Simple Tests of Coating Effectiveness　/　162
5.9.5 Latex Clothing　/　163
5.10 Choosing Polymers for Centrifuges　/　165
5.10.1 Life before Polymers　/　165
5.10.2 Types of Polymers　/　166
5.10.3 Jar Testing, Mixing Small Quantities of Polymers　/　169
5.10.4 Polymer Trials　/　177
Chapter 6 Nanotechnology In Polymer Materials / 181
6.1 A Unit of Length: A Nanometer--the Millionth Part of A Millimeter　/　181
6.1.1 Small Particles, Large Surface Areas　/　182
6.1.2 Does Nano Equal New?　/　183
6.1.3 Move into the Nano Era　/　184
6.1.4 Nanotechnology at an Overview　/　185
6.1.5 Value-adding Chain of Nanomaterials　/　186
6.1.6 The Research Verbund　/　186
6.1.7 Nanoparticles Offer Protection from the Sun　/　187
6.1.8 Ideas for Innovation from New Business Areas　/　188
6.1.9 Multidisciplinary Nature of Nanotechnology　/　188
6.2 Nanoparticles in Megatons: Wide-Ranging Applications for Polymer Dispersions　/　189
6.2.1 Large Production Volume for Aqueous Polymer Dispersions　/　190
6.2.2 Water-like Viscosity Despite High Solids Content　/　190
6.2.3 Four Ways of Creating Diversity　/　191
6.2.4 The Goal: High Solids Content and Good Processability　/　192
6.2.5 Multiphase Polymers　/　193
6.2.6 Nanocomposites with Different Morphologies　/　194
6.2.7 Major Advance: Dispersions Containing Butadiene　/　195
6.2.8 New Catalysts for Tactic Polymers　/　196
6.2.9 Virtually Limitless Range of Applications　/　197
6.3 The "Eyes and Fingers" of Nanotechnology: Analysis Leads the Way to the Nanocosm　/　198
6.3.1 Atomic Force Microscopy: Uphill and Downhill in the Nanoworld　/　199
6.3.2 Nanoinstrumentation: Tweezers, Heaters and Pipettes　/　199
6.3.3 Computer Simulations are Often Helpful　/　201
6.3.4 BASF Has Its Own Ways to Analyze Nanoparticles　/　202
6.3.5 Particle Collider Data　/　202
6.3.6 A Special Variation on TEM: Heavy Atoms in the Spotlight　/　204
6.3.7 Light, Raman Scattering and Fluorescence　/　206
6.3.8 Nanoanalysis: at the Forefront of Chemical Nanotechnology　/　208
6.4 Nanostructures through Self-Organization: Color without Dyes, Taking a Lead from Nature　/　208
6.4.1 The Three-dimensional Photonic Crystal　/　210
6.4.2 Matrix of Polymer Material　/　210
6.4.3 Crystallites of Polystyrene Particles under a Scanning Laser Microscope　/　213
6.4.4 Using Particle Size to Achieve the Entire Range of Colors　/　213
6.4.5 The One-dimensional Photonic Crystal　/　214
6.5 Nanostructures through Self-organization: Rubber Laser with Variable Optical Properties　/　215
6.6 Nanostructures with the Lotus Effect: Building Blocks for Superhydrophobic Coatings　/　219
6.6.1 Dual Structure Fights Dirt　/　220
6.6.2 Water Droplets Have Nothing to Hold on to　/　221
6.6.3 Lotus Spray in the Pipeline　/　222
6.6.4 Much Research Needs to Be Done　/　224
6.7 Nanotubes: Small Tubes with Great Potential　/　224
6.7.1
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