Verfügbarkeit: Plastics fundamentals, properties, and testing

Plastics fundamentals, properties, and testing:

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Bibliographische Detailangaben
Hauptverfasser:	Chanda, Manas 1940- (VerfasserIn), Roy, Salil K. 1939- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2009
Schriftenreihe:	Plastics engineering 74
Schlagworte:	Plastics Plastics > Testing Kunststoff
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Includes bibliographical references and index Erscheint: Juli 2008
Beschreibung:	Getr. Zählung
ISBN:	9781420080605

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MARC


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Datensatz im Suchindex

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adam_text	Contents Preface .......................................................................................... xiü Authors .........................................................................................xvii Characteristics of Polymers ............................................................ 1-1 1.1 What Isa Polymer? ......................................................................... 1-1 1.2 Molecular Weight of Polymers .............................................................. 1-3 1.2.1 Number-Average Molecular Weight (Mn) .......................................... 1-3 1.2.2 Weight-Average Molecular Weight (Mw) ........................................... 1-3 1.2.3 Viscosity-Average Molecular Weight (Mv) .......................................... 1-4 1.2.4 Polydispersity Index ................................................................ 1-4 1.3 Polymerization Processes ................................................................... 1-6 1.3.1 Addition or Chain Polymerization ................................................. 1-6 1.3.2 Coordination Addition Polymerization ............................................ 1-11 1.3.3 Step Polymerization ............................................................... 1-14 1.3.4 Supramolecular Polymerization ................................................... 1-18 1.3.5 Copolymerization ................................................................. 1-22 1.4 Configurations of Polymer Molecules ...................................................... 1-24 1.5 Conformations of a Polymer Molecule .................................................... 1-25 1.6 Polymer Crystallinity ...................................................................... 1-26 1.6.1 Determinants of Polymer Crystallinity ............................................ 1-27 1.7 The Amorphous State ..................................................................... 1-28 1.8 Structural Shape of Polymer Molecules .................................................... 1-29 1.9 Thermal Transitions in Polymers .......................................................... 1-31 1.9.1 Tg and Tm ........................................................................ 1-31 1.9.2 Regions of Viscoelastic Behavior .................................................. 1-34 1.9.3 Factors Affecting Tg ............................................................... 1-36 1.9.3.1 Chain Flexibility .......................................................... 1-36 1.9.3.2 Steric Effects ............................................................. 1-37 1.9.3.3 Configuration^ Effects ................................................... 1-37 1.9.3.4 Effect of Cross-Linking ................................................... 1-38 1.9.4 Factors Affecting Tm .............................................................. 1-38 1.9.4.1 Symmetry ................................................................ 1-38 1.9.4.2 Intermolecular Bonding .................................................. 1-39 1.9.4.3 Tacticity .................................................................. 1-40 1.9.4.4 Branching, Chain Flexibility, and Molecular Weight ...................... 1-40 1.9.5 Relation between Гт and Tg ...................................................... 1-40 vu vin 1.10 Designing a Polymer Structure for Improved Properties ................................... 1-40 1.11 Cross-Linking of Polymer Chains .......................................................... 1-42 1.11.1 Reactions of Functional Groups ................................................... 1-42 1.11.2 Vulcanization ..................................................................... 1-45 1.11.3 Radiation Cross-Linking .......................................................... 1-49 1.11.4 Photochemical Cross-Linking ..................................................... 1-51 1.11.5 Ionic Cross-Linking ............................................................... 1-52 1.12 Solubility Behavior of Polymers ........................................................... 1-53 1.12.1 Solubility Parameter ............................................................... 1-53 1.13 Effects of Corrosives on Polymers ......................................................... 1 -60 1.14 Thermal Stability and Flame Retardation .................................................. 1-63 1.14.1 Thermal Degradation ............................................................. 1-67 1.14.2 Ablation .......................................................................... 1-69 1.14.3 Flame Retardation ................................................................ 1-70 1.15 Deterioration of Polymers ................................................................. 1-70 1.15.1 Chemical Deterioration ........................................................... 1-71 1.15.2 Degradation by Radiation ......................................................... 1-74 1.15.3 Microbiological Deterioration ..................................................... 1-74 1.16 Stabilization of Polymers .................................................................. 1-75 1.16.1 Antioxidants and Related Compounds ............................................ 1-76 1.16.2 Chemical Structures of Antioxidants .............................................. 1-78 1.16.3 Stabilization of Selected Polymers ................................................. 1-80 1.16.3.1 Polypropylene ......................................................... 1-82 1.16.3.2 Polyethylene ........................................................... 1-82 1.16.3.3 Polystyrene ............................................................ 1-83 1.16.3.4 Acrylonitrile-Butadiene-Styrene Copolymers .......................... 1-83 1.16.3.5 Polycarbonate ......................................................... 1-83 1.16.3.6 Nylons ................................................................. 1-83 1.16.3.7 Thermoplastic Elastomers .............................................. 1-84 1.16.3.8 Polyacetal .............................................................. 1-85 1.16.3.9 Poly(Vinyl Chloride) ................................................... 1-85 1.16.3.10 Rubber ................................................................ 1-86 1.17 Metal Deactivators ........................................................................ 1-86 1.18 Light Stabilizers ........................................................................... 1-88 1.18.1 Light Stabilizer Classes ............................................................ 1-89 1.18.1.1 UV Absorbers .......................................................... 1-90 1.18.1.2 Quenchers ............................................................. 1-91 1.18.1.3 Hydroperoxide Decomposers .......................................... 1-92 1.18.1.4 Free-Radical Scavengers ................................................ 1-93 1.19 Light Stabilizers for Selected Plastics ....................................................... 1-96 1.19.1 Polypropylene ..................................................................... 1-96 1.19.2 Polyethylene ...................................................................... 1-96 1.19.3 Styrenie Polymers ................................................................. 1-97 1.19.4 Poly(Vinyl Chloride) .............................................................. 1-97 1.19.5 Polycarbonate ..................................................................... 1-98 1.19.6 Polyacrylates ...................................................................... 1-98 1.19.7 Polyacetal ......................................................................... 1-98 1.19.8 Polyurethanes ..................................................................... 1-98 1.19.9 Polyamides........................................................................ 1-99 1.20 Diffusion and Permeability ................................................................ 1-99 1.20.1 Diffusion ......................................................................... 1-100 1.20.2 Permeability .....................................................................1-100 1.21 Polymer Compounding ..................................................................1-101 1.21.1 Fillers ............................................................................ 1-103 1.22 Plasticizers , 1.22.1 Phthalic Acid Esters ...... 1.22.2 Phosphoric Acid Esters ... 1.22.3 Fatty Acid Esters ......... 1.22.4 Polymeric Plasticizers ___ 1.22.5 Miscellaneous Plasticizers 1.23 Antistatic Agents . 1.23 Л External Antistatic Agents .................. 1.23.2 Internal Antistatic Agents .................. 1.23.3 Chemical Composition of Antistatic Agents 1.24 Flame Retardants. 1.23.3.1 Antistatic Agents Containing Nitrogen ... 1.23.3.2 Antistatic Agents Containing Phosphorus 1.23.3.3 Antistatic Agents Containing Sulfur ...... 1.23.3.4 Betaine-Type Antistatic Agents ........... 1.23.3.5 Nonionic Antistatic Agents ............... 1.24.1 Halogen Compounds ................... 1.24.2 Phosphorus Compounds ................ 1.24.3 Halogen-Antimony Synergetic Mixtures. 1.24.4 Intumescent Flame Retardants .......... 1.25 Smoke Suppressants . 1.26 Colorants ........... 1.27 Antimicrobials ...... 1.28 Toxicity of Plastics .. 1.28.1 Plastic Devices in Pharmacy and Medicine 1.28.1.1 Packing ............................ 1.28.1.2 Tubings and Blood Bag Assemblies . 1.28.1.3 Implants ........................... 1.28.1.4 Adhesives .......................... 1.28.1.5 Dental Materials ................... 1.28.1.6 Nanomedicines and Drug Delivery . 1.28.2 Biodegradable Plastics ................... 1.28.3 Oxo-Biodegradable Plastics .............. 1.28.4 Toxicity of Plastic Combustion Products 1.28.5 Toxicity Testing ......................... References . ix -104 -108 -108 -108 -109 -110 -111 -111 -112 -112 -113 -114 -115 -115 -115 -115 -116 -117 -118 -119 -119 -119 -120 -121 -121 -122 -122 -122 -122 -122 -123 -124 -124 -125 -125 -125 2 Plastics Properties and Testing .........................................................2-1 2.1 Introduction ............................................................................... 2-1 2.2 Mechanical Properties ...................................................................... 2-1 2.2.1 Stress and Strain ................................................................... 2-2 2.2.2 Stress-Strain Behavior ............................................................. 2-4 2.2.3 Viscoelastic Behavior of Plastics .................................................... 2-7 2.2.3.1 Modulus and Compliance ................................................ 2-8 2.2.4 Stress-Strain-Time Behavior ....................................................... 2-8 2.2.4.1 The WLF Equations ...................................................... 2-9 2.2.5 Creep Behavior ................................................................... 2-11 2.2.6 Maxwell Model ................................................................... 2-12 2.2.6.1 Stress-Strain Relation ................................................... 2-13 2.2.6.2 Generalized Maxwell Model ............................................. 2-15 2.2.7 Kelvin or Voigt Model ............................................................ 2-17 2.2.7.1 Stress-Strain Relation ................................................... 2-18 2.2.8 Four-Element Model .............................................................. 2-19 2.2.9 Zener Model ...................................................................... 2-20 2.2.10 Superposition Principle ........................................................... 2-21 2.2.11 Isometric and Isochronous Curves ................................................2-22 2.2.12 Pseudoelastic Design Method ......................................................2-23 2.2.13 Effect of Temperature ............................................................. 2-26 2.2.14 Time-Temperature Superposition .................................................2-26 2.2.15 Dynamic Mechanical Properties ...................................................2-28 2.2.15.1 Maxwell Element ........................................................2-29 2.2.15.2 Terminology of Dynamic Mechanical Experiments .......................2-32 2.2.15.3 Dynamic Mechanical Behavior at Thermal Transitions ...................2-34 2.2.16 Rheological Behavior .............................................................. 2-35 2.2.16.1 Classification of Fluid Behavior .........................................2-36 2.2.16.2 Effect of Shear Rate on Viscosity ........................................2-39 2.2.16.3 Effect of Molecular Weight on Viscosity .................................2-39 2.2.16.4 Effect of Temperature on Polymer Viscosity .............................2-40 2.2.16.5 Effect of Pressure on Viscosity ...........................................2-41 2.2.16.6 Weissenberg Effects ......................................................2-41 2.2.16.7 Irregular Flow or Melt Fracture ..........................................2-42 2.2.17 Measurement of Viscosity .........................................................2-42 2.2.17.1 Rotational Viscometers ..................................................2-43 2.2.17.2 Capillary Rheometers ...................................................2-44 2.2.18 Plastics Fractures ..................................................................2-46 2.2.19 Impact Behavior of Plastics ........................................................2-46 2.2.20 Fatigue of Plastics ................................................................. 2-50 2.2.21 Hardness .......................................................................... 2-52 2.2.22 Indentation Hardness .............................................................2-52 2.2.22.1 Brinell Hardness Number ...............................................2-52 2.2.22.2 Vickers Hardness Number ...............................................2-53 2.2.22.3 Knoop Hardness Number ...............................................2-53 2.2.22.4 Rockwell Hardness Number .............................................2-53 2.2.22.5 Barcol Hardness .........................................................2-53 2.2.22.6 Durometer Hardness ....................................................2-54 2.2.23 Rebound Hardness ................................................................2-54 2.2.24 Scratch Hardness ..................................................................2-55 2.2.25 Stress Corrosion Cracking of Polymers ............................................2-55 2.3 Reinforced Plastics ........................................................................2-57 2.3.1 Types of Reinforcement ...........................................................2-58 2.3.2 Types of Matrix ...................................................................2-58 2.3.3 Analysis of Reinforced Plastics ....................................................2-58 2.3.3.1 Continuous Fibers ......................................................2-59 2.3.3.2 Discontinuous Fibers ....................................................2-62 2.3.3.3 Fiber Length Less than IQ ................................................2-64 2.3.3.4 Fiber Length Equal to /c .................................................2-65 2.3.3.5 Fiber Length Greater than ic ............................................2-65 2.3.4 Deformation Behavior of Fiber-Reinforced Plastic .................................2-66 2.3.5 Fracture of Fiber-Reinforced Plastics ..............................................2-66 2.3.5.1 Tension .................................................................2-67 2.3.5.2 Compression ............................................................2-67 2.3.5.3 Flexure or Shear ........................................................2-67 2.3.6 Fatigue Behavior of Reinforced Plastics ............................................2-68 2.3.7 Impact Behavior of Reinforced Plastics ............................................2-68 2.4 Electrical Properties .......................................................................2-68 2.4.1 Dielectric Strength ................................................................2-69 2.4.2 Insulation Resistance ..............................................................2-70 2.4.3 Arc Resistance ....................................................................2-71 2.4.4 Dielectric Constant ...............................................................2-72 2.4.4.1 Polarization and Dipole Moment ........................................ 2-74 2.4.4.2 Dielectric Constant versus Frequency .................................... 2-76 2.4.4.3 Dielectric Constant versus Temperature ................................. 2-76 2.4.4.4 Dielectric Losses ........................................................ 2-77 2.4.4.5 Dielectric Losses of Polar Polymers ...................................... 2-78 2.5 Optical Properties ......................................................................... 2-78 2.5.1 Optical Clarity .................................................................... 2-79 2.5.2 Index of Refraction ............................................................... 2-80 2.5.3 Piped Lighting Effect .............................................................. 2-81 2.5.4 Stress-Optical Characteristics ...................................................... 2-83 2.6 Thermal Properties ........................................................................ 2-83 2.6.1 Specific Heat ...................................................................... 2-83 2.6.2 Thermal Expansion ............................................................... 2-84 2.6.3 Thermal Conductivity ............................................................ 2-86 2.6.4 Transition Temperatures and Temperature Limitations ............................ 2-88 2.6.5 Standard Properties of Plastics .................................................... 2-90 2.7 Identification of Common Plastics ......................................................... 2-91 2.7.1 Behaviors on Heating and Ignition ................................................ 2-91 2.7.2 Tests for Characteristic Elements .................................................. 2-92 2.7.3 Specific Tests ...................................................................... 2-95 References .....................................................................................2-102 Appendices Al Conversion of Units ....................................................................... Al - A2 Index of Trade Names, Manufacturers, and Suppliers of Antioxidants ...................... A2- A3 Index of Trade Names, Manufacturers, and Suppliers of Metal Deactivators ................ A3- A4 Index of Trade Names, Manufacturers, and Suppliers of Light Stabilizers ................... A4- A5 Formulations of Flame-Retarded Selected Thermoplastics .................................. A5- A6 Index of Trade Names and Suppliers of Flame Retardants .................................. A6- A7 Harmonic Motion of a Maxwell Model .................................................... A7- Index ............................................................................................. I- MATERIALS SCIENCE Plastics Fundamentals, Properties, and Testing Derived from the fourth edition of the well-known Plastics Technology Handbook, Plastics Fitmlamem als. Properties, and Testing covers the behavior, characterization, ctnd evaluation of polymers. With a lucid approach and .1 wealth of valuable information, this book looks at the remarkable versatility of this nonmetallic class of materials. Examining polymers at the molecular level, the book first discusses their inherent properties anil how their end-use properties can lx-· influenced through changes in the molecular architecture or incorporation of various fillers and additives. The authors coherently present a wide spectrum of topics by sequentially introducing structural aspects, properties, and applications. They then proceed to explore the mechanical. electrical, optical, and thermal properties of polymers, prov iding theoretical derivations where necessary as well as explanations on molecular and structural features. To identify the principles involved, the book also furnishes the bases of mam standard test methods according I and BS 2782 specifications. Features Covers the macromolecular aspects of polymer behavior, including conformation, amorphous and stalline states, thermal transitions, cross-linking, deterioration, stabilization, diffusion, permeability, toxicity . and biodegradability Discusses the functions of compounding agents, metal deactivators, light stabilizers, plasticiz« antistatic agents, tlame retardants, smoke suppressants, colorants, and antimicrobials in piasi Presents mechanical, electrical, optical, and thermal properties, including stress-strain behavior, dielectric strength, optical clarity, and thermal conductivity Includes a useful guide for identifying common plastics
adam_txt	Contents Preface . xiü Authors .xvii Characteristics of Polymers . 1-1 1.1 What Isa Polymer? . 1-1 1.2 Molecular Weight of Polymers . 1-3 1.2.1 Number-Average Molecular Weight (Mn) . 1-3 1.2.2 Weight-Average Molecular Weight (Mw) . 1-3 1.2.3 Viscosity-Average Molecular Weight (Mv) . 1-4 1.2.4 Polydispersity Index . 1-4 1.3 Polymerization Processes . 1-6 1.3.1 Addition or Chain Polymerization . 1-6 1.3.2 Coordination Addition Polymerization . 1-11 1.3.3 Step Polymerization . 1-14 1.3.4 Supramolecular Polymerization . 1-18 1.3.5 Copolymerization . 1-22 1.4 Configurations of Polymer Molecules . 1-24 1.5 Conformations of a Polymer Molecule . 1-25 1.6 Polymer Crystallinity . 1-26 1.6.1 Determinants of Polymer Crystallinity . 1-27 1.7 The Amorphous State . 1-28 1.8 Structural Shape of Polymer Molecules . 1-29 1.9 Thermal Transitions in Polymers . 1-31 1.9.1 Tg and Tm . 1-31 1.9.2 Regions of Viscoelastic Behavior . 1-34 1.9.3 Factors Affecting Tg . 1-36 1.9.3.1 Chain Flexibility . 1-36 1.9.3.2 Steric Effects . 1-37 1.9.3.3 Configuration^ Effects . 1-37 1.9.3.4 Effect of Cross-Linking . 1-38 1.9.4 Factors Affecting Tm . 1-38 1.9.4.1 Symmetry . 1-38 1.9.4.2 Intermolecular Bonding . 1-39 1.9.4.3 Tacticity . 1-40 1.9.4.4 Branching, Chain Flexibility, and Molecular Weight . 1-40 1.9.5 Relation between Гт and Tg . 1-40 vu vin 1.10 Designing a Polymer Structure for Improved Properties . 1-40 1.11 Cross-Linking of Polymer Chains . 1-42 1.11.1 Reactions of Functional Groups . 1-42 1.11.2 Vulcanization . 1-45 1.11.3 Radiation Cross-Linking . 1-49 1.11.4 Photochemical Cross-Linking . 1-51 1.11.5 Ionic Cross-Linking . 1-52 1.12 Solubility Behavior of Polymers . 1-53 1.12.1 Solubility Parameter . 1-53 1.13 Effects of Corrosives on Polymers . 1 -60 1.14 Thermal Stability and Flame Retardation . 1-63 1.14.1 Thermal Degradation . 1-67 1.14.2 Ablation . 1-69 1.14.3 Flame Retardation . 1-70 1.15 Deterioration of Polymers . 1-70 1.15.1 Chemical Deterioration . 1-71 1.15.2 Degradation by Radiation . 1-74 1.15.3 Microbiological Deterioration . 1-74 1.16 Stabilization of Polymers . 1-75 1.16.1 Antioxidants and Related Compounds . 1-76 1.16.2 Chemical Structures of Antioxidants . 1-78 1.16.3 Stabilization of Selected Polymers . 1-80 1.16.3.1 Polypropylene . 1-82 1.16.3.2 Polyethylene . 1-82 1.16.3.3 Polystyrene . 1-83 1.16.3.4 Acrylonitrile-Butadiene-Styrene Copolymers . 1-83 1.16.3.5 Polycarbonate . 1-83 1.16.3.6 Nylons . 1-83 1.16.3.7 Thermoplastic Elastomers . 1-84 1.16.3.8 Polyacetal . 1-85 1.16.3.9 Poly(Vinyl Chloride) . 1-85 1.16.3.10 Rubber . 1-86 1.17 Metal Deactivators . 1-86 1.18 Light Stabilizers . 1-88 1.18.1 Light Stabilizer Classes . 1-89 1.18.1.1 UV Absorbers . 1-90 1.18.1.2 Quenchers . 1-91 1.18.1.3 Hydroperoxide Decomposers . 1-92 1.18.1.4 Free-Radical Scavengers . 1-93 1.19 Light Stabilizers for Selected Plastics . 1-96 1.19.1 Polypropylene . 1-96 1.19.2 Polyethylene . 1-96 1.19.3 Styrenie Polymers . 1-97 1.19.4 Poly(Vinyl Chloride) . 1-97 1.19.5 Polycarbonate . 1-98 1.19.6 Polyacrylates . 1-98 1.19.7 Polyacetal . 1-98 1.19.8 Polyurethanes . 1-98 1.19.9 Polyamides. 1-99 1.20 Diffusion and Permeability . 1-99 1.20.1 Diffusion . 1-100 1.20.2 Permeability .1-100 1.21 Polymer Compounding .1-101 1.21.1 Fillers . 1-103 1.22 Plasticizers , 1.22.1 Phthalic Acid Esters . 1.22.2 Phosphoric Acid Esters . 1.22.3 Fatty Acid Esters . 1.22.4 Polymeric Plasticizers _ 1.22.5 Miscellaneous Plasticizers 1.23 Antistatic Agents . 1.23 Л External Antistatic Agents . 1.23.2 Internal Antistatic Agents . 1.23.3 Chemical Composition of Antistatic Agents 1.24 Flame Retardants. 1.23.3.1 Antistatic Agents Containing Nitrogen . 1.23.3.2 Antistatic Agents Containing Phosphorus 1.23.3.3 Antistatic Agents Containing Sulfur . 1.23.3.4 Betaine-Type Antistatic Agents . 1.23.3.5 Nonionic Antistatic Agents . 1.24.1 Halogen Compounds . 1.24.2 Phosphorus Compounds . 1.24.3 Halogen-Antimony Synergetic Mixtures. 1.24.4 Intumescent Flame Retardants . 1.25 Smoke Suppressants . 1.26 Colorants . 1.27 Antimicrobials . 1.28 Toxicity of Plastics . 1.28.1 Plastic Devices in Pharmacy and Medicine 1.28.1.1 Packing . 1.28.1.2 Tubings and Blood Bag Assemblies . 1.28.1.3 Implants . 1.28.1.4 Adhesives . 1.28.1.5 Dental Materials . 1.28.1.6 Nanomedicines and Drug Delivery . 1.28.2 Biodegradable Plastics . 1.28.3 Oxo-Biodegradable Plastics . 1.28.4 Toxicity of Plastic Combustion Products 1.28.5 Toxicity Testing . References . ix -104 -108 -108 -108 -109 -110 -111 -111 -112 -112 -113 -114 -115 -115 -115 -115 -116 -117 -118 -119 -119 -119 -120 -121 -121 -122 -122 -122 -122 -122 -123 -124 -124 -125 -125 -125 2 Plastics Properties and Testing .2-1 2.1 Introduction . 2-1 2.2 Mechanical Properties . 2-1 2.2.1 Stress and Strain . 2-2 2.2.2 Stress-Strain Behavior . 2-4 2.2.3 Viscoelastic Behavior of Plastics . 2-7 2.2.3.1 Modulus and Compliance . 2-8 2.2.4 Stress-Strain-Time Behavior . 2-8 2.2.4.1 The WLF Equations . 2-9 2.2.5 Creep Behavior . 2-11 2.2.6 Maxwell Model . 2-12 2.2.6.1 Stress-Strain Relation . 2-13 2.2.6.2 Generalized Maxwell Model . 2-15 2.2.7 Kelvin or Voigt Model . 2-17 2.2.7.1 Stress-Strain Relation . 2-18 2.2.8 Four-Element Model . 2-19 2.2.9 Zener Model . 2-20 2.2.10 Superposition Principle . 2-21 2.2.11 Isometric and Isochronous Curves .2-22 2.2.12 Pseudoelastic Design Method .2-23 2.2.13 Effect of Temperature . 2-26 2.2.14 Time-Temperature Superposition .2-26 2.2.15 Dynamic Mechanical Properties .2-28 2.2.15.1 Maxwell Element .2-29 2.2.15.2 Terminology of Dynamic Mechanical Experiments .2-32 2.2.15.3 Dynamic Mechanical Behavior at Thermal Transitions .2-34 2.2.16 Rheological Behavior . 2-35 2.2.16.1 Classification of Fluid Behavior .2-36 2.2.16.2 Effect of Shear Rate on Viscosity .2-39 2.2.16.3 Effect of Molecular Weight on Viscosity .2-39 2.2.16.4 Effect of Temperature on Polymer Viscosity .2-40 2.2.16.5 Effect of Pressure on Viscosity .2-41 2.2.16.6 Weissenberg Effects .2-41 2.2.16.7 Irregular Flow or Melt Fracture .2-42 2.2.17 Measurement of Viscosity .2-42 2.2.17.1 Rotational Viscometers .2-43 2.2.17.2 Capillary Rheometers .2-44 2.2.18 Plastics Fractures .2-46 2.2.19 Impact Behavior of Plastics .2-46 2.2.20 Fatigue of Plastics . 2-50 2.2.21 Hardness . 2-52 2.2.22 Indentation Hardness .2-52 2.2.22.1 Brinell Hardness Number .2-52 2.2.22.2 Vickers Hardness Number .2-53 2.2.22.3 Knoop Hardness Number .2-53 2.2.22.4 Rockwell Hardness Number .2-53 2.2.22.5 Barcol Hardness .2-53 2.2.22.6 Durometer Hardness .2-54 2.2.23 Rebound Hardness .2-54 2.2.24 Scratch Hardness .2-55 2.2.25 Stress Corrosion Cracking of Polymers .2-55 2.3 Reinforced Plastics .2-57 2.3.1 Types of Reinforcement .2-58 2.3.2 Types of Matrix .2-58 2.3.3 Analysis of Reinforced Plastics .2-58 2.3.3.1 Continuous Fibers .2-59 2.3.3.2 Discontinuous Fibers .2-62 2.3.3.3 Fiber Length Less than IQ .2-64 2.3.3.4 Fiber Length Equal to /c .2-65 2.3.3.5 Fiber Length Greater than ic .2-65 2.3.4 Deformation Behavior of Fiber-Reinforced Plastic .2-66 2.3.5 Fracture of Fiber-Reinforced Plastics .2-66 2.3.5.1 Tension .2-67 2.3.5.2 Compression .2-67 2.3.5.3 Flexure or Shear .2-67 2.3.6 Fatigue Behavior of Reinforced Plastics .2-68 2.3.7 Impact Behavior of Reinforced Plastics .2-68 2.4 Electrical Properties .2-68 2.4.1 Dielectric Strength .2-69 2.4.2 Insulation Resistance .2-70 2.4.3 Arc Resistance .2-71 2.4.4 Dielectric Constant .2-72 2.4.4.1 Polarization and Dipole Moment . 2-74 2.4.4.2 Dielectric Constant versus Frequency . 2-76 2.4.4.3 Dielectric Constant versus Temperature . 2-76 2.4.4.4 Dielectric Losses . 2-77 2.4.4.5 Dielectric Losses of Polar Polymers . 2-78 2.5 Optical Properties . 2-78 2.5.1 Optical Clarity . 2-79 2.5.2 Index of Refraction . 2-80 2.5.3 Piped Lighting Effect . 2-81 2.5.4 Stress-Optical Characteristics . 2-83 2.6 Thermal Properties . 2-83 2.6.1 Specific Heat . 2-83 2.6.2 Thermal Expansion . 2-84 2.6.3 Thermal Conductivity . 2-86 2.6.4 Transition Temperatures and Temperature Limitations . 2-88 2.6.5 Standard Properties of Plastics . 2-90 2.7 Identification of Common Plastics . 2-91 2.7.1 Behaviors on Heating and Ignition . 2-91 2.7.2 Tests for Characteristic Elements . 2-92 2.7.3 Specific Tests . 2-95 References .2-102 Appendices Al Conversion of Units . Al - A2 Index of Trade Names, Manufacturers, and Suppliers of Antioxidants . A2- A3 Index of Trade Names, Manufacturers, and Suppliers of Metal Deactivators . A3- A4 Index of Trade Names, Manufacturers, and Suppliers of Light Stabilizers . A4- A5 Formulations of Flame-Retarded Selected Thermoplastics . A5- A6 Index of Trade Names and Suppliers of Flame Retardants . A6- A7 Harmonic Motion of a Maxwell Model . A7- Index . I- MATERIALS SCIENCE Plastics Fundamentals, Properties, and Testing Derived from the fourth edition of the well-known Plastics Technology Handbook, Plastics Fitmlamem 'als. Properties, and Testing covers the behavior, characterization, ctnd evaluation of polymers. With a lucid approach and .1 wealth of valuable information, this book looks at the remarkable versatility of this nonmetallic class of materials. Examining polymers at the molecular level, the book first discusses their inherent properties anil how their end-use properties can lx-· influenced through changes in the molecular architecture or incorporation of various fillers and additives. The authors coherently present a wide spectrum of topics by sequentially introducing structural aspects, properties, and applications. They then proceed to explore the mechanical. electrical, optical, and thermal properties of polymers, prov iding theoretical derivations where necessary as well as explanations on molecular and structural features. To identify the principles involved, the book also furnishes the bases of mam standard test methods according I and BS 2782 specifications. Features Covers the macromolecular aspects of polymer behavior, including conformation, amorphous and stalline states, thermal transitions, cross-linking, deterioration, stabilization, diffusion, permeability, toxicity . and biodegradability Discusses the functions of compounding agents, metal deactivators, light stabilizers, plasticiz« antistatic agents, tlame retardants, smoke suppressants, colorants, and antimicrobials in piasi Presents mechanical, electrical, optical, and thermal properties, including stress-strain behavior, dielectric strength, optical clarity, and thermal conductivity Includes a useful guide for identifying common plastics
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title	Plastics fundamentals, properties, and testing
title_auth	Plastics fundamentals, properties, and testing
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title_full	Plastics fundamentals, properties, and testing Manas Chanda ; Salil K. Roy
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