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Materials science of polymers for engineers:

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Bibliographische Detailangaben
1. Verfasser:	Osswald, Tim A. 1958- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Munich Hanser [u.a.] 2012
Ausgabe:	3. ed.
Schlagworte:	Matières plastiques Polymères Plastics Polymers Werkstoffkunde Polymere Kunststoff Stoffeigenschaft Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 595 S. graph. Darst. 25 cm
ISBN:	9781569905142 9781569905241

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Datensatz im Suchindex

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adam_text	Titel: Material science of polymers for engineers Autor: Osswald, Tim Jahr: 2012 Contents Preface to the First Edition............................................................................VII Preface to the Third Edition ...............................................IX 1 Introduction ................................................................................................3 1.1 The 6 P s..........................................................................................................3 1.2 General Information ......................................................................................6 1.3 Identification of Polymers..............................................................................13 1.4 Sustainability - The 6Ih P..............................................................................15 References ..............................................................................................................20 2 Historical Background ............................................................................21 2.1 From Natural to Synthetic Rubber................................................................21 2.2 Cellulose and the $10,000 Idea......................................................................27 2.3 Gala!ith - The Milk Stone..............................................................................30 2.4 Leo Baekeland and the Plastics Industry ....................................................31 2.5 Herman Mark and the American Polymer Education................................34 2.6 Wallace Hume Carothers and Synthetic Polymers......................................37 2.7 Polyethylene - A Product of Brain and Brawn............................................39 2.8 The Super Fiber and the Woman Who Invented It......................................42 2.9 One Last Word - Plastics ..............................................................................44 References ..............................................................................................................47 3 Structure of Polymers..............................................................................49 3.1 Macromolecular Structure of Polymers........................................................49 3.2 Molecular Bonds and Inter-Molecular Attraction........................................50 3.3 Molecular Weight ..........................................................................................51 3.4 Conformation and Configuration of Polymer Molecules 3.5 Arrangement of Polymer Molecules ................ 3.5.1 Thermoplastic Polymers................... 3.5.2 Amorphous Thermoplastics................ 3.5.3 Semi-Crystalline Thermoplastics ........... 3.5.4 Thermosets and Cross-Linked Elastomers 3.6 Copolymers and Polymer Blends................... 3.7 Polymer Additives............................... 3.7.1 Flame Retardants ........................ 3.7.2 Stabilizers .............................. 3.7.3 Antistatic Agents ........................ 3.7.4 Fillers.................................. 3.7.5 Blowing Agents.......................... References ......................................... 4 Thermal Properties of Polymers ............... 4.1 Material Properties.............................. 4.1.1 Thermal Conductivity..................... 4.1.2 Specific Heat............................ 4.1.3 Density................................. 4.1.4 Thermal Diffusivity....................... 4.1.5 Linear Coefficient of Thermal Expansion..... 4.1.6 Thermal Penetration...................... 4.1.7 Glass Transition Temperature.............. 4.1.8 Melting Temperature ..................... 4.2 Measuring Thermal Data ......................... 4.2.1 Differential Thermal Analysis (DTA) ........ 4.2.2 Differential Scanning Calorimeter (DSC)..... 4.2.3 Thermomechanical Analysis (TMA)......... 4.2.4 Thermogravimetry (TGA).................. 4.2.5 Density Measurements.................... References ....................................... 5 Rheology of Polymer Melts.................... 5.1 Introduction.......................... 5.1.1 Continuum Mechanics.................. 5.1.2 The Generalized Newtonian Fluid........... 5.1.3 Normal Stresses in Shear Flow............. 5.1.4 Deborah Number......... 56 59 60 60 62 72 73 75 75 77 78 78 79 82 83 85 85 91 93 96 97 98 99 99 99 100 101 103 104 105 109 111 111 111 113 115 116 5.2 Viscous Flow Models......................................................................................119 5.2.1 The Power Law Model......................................................................119 5.2.2 The BircLCarreau-Yasuda Model....................................................121 5.2.3 The Bingham Fluid..........................................................................122 5.2.4 Elongational Viscosity ....................................................................122 5.2.5 Rheology of Curing Thermosets ....................................................125 5.2.6 Suspension Rheology......................................................................127 5.3 Simplified Flow Models Common in Polymer Processing..........................129 5.3.1 Simple Shear Flow ..........................................................................129 5.3.2 Pressure Flow Through a Slit ........................................................130 5.3.3 Pressure Flow through a Tube - Hagen-Poiseuille Flow ............130 5.3.4 Couette Flow ....................................................................................131 5.4 Viscoelastic Flow Models ..............................................................................132 5.4.1 Differential Viscoelastic Models ....................................................132 5.4.2 Integral Viscoelastic Models ..........................................................135 5.5 Rheometry ......................................................................................................138 5.5.1 The Melt Flow Indexer....................................................................139 5.5.2 The Capillary Viscometer................................................................139 5.5.3 Computing Viscosity Using the Bagley and Weissenberg-Rabinowitsch Equations ..........................................141 5.5.4 Viscosity Approximation Using the Representative Viscosity Method ............................................................................142 5.5.5 The Cone-Plate Rheometer..............................................................143 5.5.6 The Couette Rheometer ..................................................................144 5.5.7 Extensional Rheometry ..................................................................145 5.6 Surface Tension..............................................................................................148 References .......................................................................................157 6 Introduction to Processing ....................................................................163 6.1 Extrusion ........................................................................................................163 6.1.1 The Plasticating Extruder ..............................................................166 6.1.1.1 The Solids Conveying Zone ............................................................168 6.1.1.2 The Melting Zone .......................................171 6.1.1.3 The Metering Zone..........................................................................174 6.1.2 Extrusion Dies..................................................................................175 6.1.2.1 Sheeting Dies....................................................................................176 6.1.2.2 Tubular Dies ....................................................................................177 6.2 Mixing Processes............................................................................................179 6.2.1 Distributive Mixing..........................................................................181 6.2.1.1 Effect of Orientation........................................................................182 ......................184 6.2.2 Dispersive Mixing.......................... 6.2.2.1 Break-Up of Particulate Agglomerates ..................... 6.2.2.2 Break-Up of Fluid Droplets............................... „ ..............loy 6.2.3 Mixing Devices.............................. 6.2.3.1 Static Mixers.......................................... 6.2.3.2 Banbury Mixer ........................................ 6.2.3.3 Mixing in Single Screw Extruders ........................ 6.2.3.4 Co-Kneader ......................................................................................19 103 6.2.3.5 Twin Screw Extruders .................................. 6.2.4 Energy Consumption During Mixing............................................198 6.2.5 Mixing Quality and Efficiency........................................................199 6.2.6 Plasticization.......................................... 6.3 Injection Molding ..........................................................................................206 6.3.1 The Injection Molding Cycle ..........................................................207 6.3.2 The Injection Molding Machine........................... 6.3.2.1 The Plasticating and Injection Unit................................................210 6.3.2.2 The Clamping Unit..........................................................................211 6.3.2.3 The Mold Cavity ...........................................................213 6.4 Special Injection Molding Processes............................................................216 6.4.1 Multi-Component Injection Molding..............................................216 6.4.2 Co-Injection Molding ......................................................................218 6.4.3 Gas-Assisted Injection Molding (GAIM)........................................219 6.4.4 Injection-Compression Molding ....................................................221 6.4.5 Reaction Injection Molding (RIM)..................................................222 6.4.6 Liquid Silicone Rubber Injection Molding....................................225 6.5 Secondary Shaping........................................................................................226 6.5.1 Fiber Spinning..................................................................................226 6.5.2 Film Production................................................................................227 6.5.2.1 Cast Film Extrusion ........................................................................227 6.5.2.2 Film Blowing....................................................................................228 6.5.3 Blow Molding.................................................230 6.5.3.1 Extrusion Blow Molding..................................................................230 6.5.3.2 Injection Blow Molding ..................................................................232 6.5.3.3 Thermoforming..................................................................233 6.6 Calendering..............................................................................235 6.7 Coating..............................................................23# 6.8 Compression Molding................................................240 6.9 Foaming................................................................242 6.10 Rotational Molding ..................~ f, ...........................................244 6.11 Computer Simulation in Polymer Processing..............................................245 6.11.1 Mold Filling Simulation..................................................................246 6.11.2 Orientation Predictions ..................................................................248 6.11.3 Shrinkage and Warpage Predictions..............................................249 References ..............................................................................................................260 7 Anisotropy Development During Processing ..................................263 7.1 Orientation in the Final Part ........................................................................263 7.1.1 Processing Thermoplastic Polymers..............................................263 7.1.2 Processing Thermoset Polymers....................................................271 7.2 Predicting Orientation in the Final Part......................................................275 7.2.1 Planar Orientation Distribution Function ....................................276 7.2.2 Single Particle Motion ....................................................................278 7.2.3 Jeffery s Model ................................................................................279 7.2.4 Folgar-Tucker Model........................................................................280 7.2.5 Tensor Representation of Fiber Orientation..................................281 7.2.5.1 Predicting Orientation in Complex Parts Using Computer Simulation......................................................................282 7.3 Fiber Damage..................................................................................................287 References ..............................................................................................................293 8 Solidification of Polymers ......................................................................295 8.1 Solidification of Thermoplastics....................................................................295 8.1.1 Thermodynamics During Cooling..................................................295 8.1.2 Morphological Structure ................................................................299 8.1.3 Crystallization..................................................................................300 8.1.4 Heat Transfer During Solidification ..............................................303 8.2 Solidification of Thermosets..........................................................................307 8.2.1 Curing Reaction ..............................................................................308 8.2.2 Cure Kinetics....................................................................................309 8.2.3 Heat Transfer During Cure ............................................................314 8.3 Residual Stresses and Warpage of Polymeric Parts....................................316 8.3.1 Residual Stress Models.............................................................319 8.3.1.1 Residual Stress Model Without Phase Change Effects................321 8.3.1.2 Model to Predict Residual Stresses with Phase Change Effects......................................................................322 8.3.2 Other Simple Models to Predict Residual Stresses and Warpage 324 8.3.2.1 Uneven Mold Temperature..............................................................326 8.3.2.2 Residual Stress in a Thin Thermoset Part ....................................327 8.3.2.3 Anisotropy Induced Curvature Change ........................................328 n 329 8 33 Predicting Warpage in Actual Parts....................... ..........336 References ......................................... 9 Mechanical Behavior of Polymers........................................................341 34! 9.1 Basic Concepts of Stress and Strain ............................................................^ 9.1.1 Plane Stress........................................... 9.1.2 Plane Strain........................................... 343 9.2 Viscoelastic Behavior of Polymers................................ 9.2.1 Stress Relaxation Test......................................................................344 9.2.2 Time-Temperature Superposition (WLF-Equation) ......................346 9.2.3 The Boltzmann Superposition Principle........................................347 9.3 Applying Linear Viscoelasticity to Describe the Behavior of Polymers .. 348 9.3.1 The Maxwell Model..........................................................................34^ 9.3.2 Kelvin Model....................................................................................33(1 9.3.3 Jeffrey Model....................................................................................33^ 9.3.4 Standard Linear Solid Model..........................................................354 9.3.5 The Generalized Maxwell Model....................................................356 9.4 The Short-Term Tensile Test..........................................................................361 9.4.1 Rubber Elasticity..............................................................................362 9.4.2 The Tensile Test and Thermoplastic Polymers..............................367 9.5 Creep Test........................................................................................................374 9.5.1 Isochronous and Isometric Creep Plots ........................................378 9.6 Dynamic Mechanical Tests............................................................................379 9.6.1 Torsion Pendulum...................................... 379 9.6.2 Sinusoidal Oscillatory Test..............................................................383 9.7 Effects of Structure and Composition on Mechanical Properties....... 385 9.7.1 Amorphous Thermoplastics.............................. 385 9.7.2 Semi-Crystalline Thermoplastics ..................................................388 9.7.3 Oriented Thermoplastics ................................ 390 9.7.4 Crosslinked Polymers................................... 395 9.8 Mechanical Behavior of Filled and Reinforced Polymers ..........................397 9.8.1 Anisotropic Strain-Stress Relation ........................ 399 9.8.2 Aligned Fiber Reinforced Composite Laminates ............. 400 9.8.3 Transformation of Fiber Reinforced Composite Laminate Properties ....................................................4Q2 9.8.4 Reinforced Composite Laminates with a Fiber Orientation Distribution Function....................................4q4 9.9 Strength Stability Under Heat ..................................405 References..... ................................................ 421 10 Failure and Damage of Polymers..........................................................423 10.1 Fracture Mechanics........................................................................................423 10.1.1 Fracture Predictions Based on the Stress Intensity Factor..........424 10.1.2 Fracture Predictions Based on an Energy Balance......................426 10.1.3 Linear Viscoelastic Fracture Predictions Based on /-Integrals . 428 10.2 Short-Term Tensile Strength ........................................................................430 10.2.1 Brittle Failure ..................................................................................430 10.2.2 Ductile Failure..................................................................................434 10.2.3 Failure of Highly Filled Systems or Composites ..........................437 10.3 Impact Strength..............................................................................................440 10.3.1 Impact Test Methods........................................................................446 10.3.2 Fracture Mechanics Analysis of Impact Failure ..........................450 10.4 Creep Rupture ................................................................................................455 10.4.1 Creep Rupture Tests........................................................................456 10.4.2 Fracture Mechanics Analysis of Creep Rupture ..........................459 10.5 Fatigue ............................................................................................................459 10.5.1 Fatigue Test Methods ......................................................................460 10.5.2 Fracture Mechanics Analysis of Fatigue Failure..........................468 10.6 Friction and Wear ..........................................................................................470 10.7 Stability of Polymer Structures ....................................................................473 10.8 Environmental Effects on Polymer Failure..................................................475 10.8.1 Weathering ......................................................................................475 10.8.2 Chemical Degradation ....................................................................480 10.8.3 Thermal Degradation of Polymers ................................................482 References ..............................................................................................................486 11 Electrical Properties of Polymers........................................................489 11.1 Dielectric Behavior ........................................................................................489 11.1.1 Dielectric Coefficient ......................................................................489 11.1.2 Mechanisms of Dielectrical Polarization ......................................493 11.1.3 Dielectric Dissipation Factor..........................................................496 11.1.4 Implications of Electrical and Thermal Loss in a Dielectric--------499 11.2 Electric Conductivity......................................................................................500 11.2.1 Electric Resistance..........................................................................500 11.2.2 Physical Causes of Volume Conductivity......................................501 11.3 Application Problems ....................................................................................504 11.3.1 Electric Breakdown..........................................................................504 11.3.2 Electrostatic Charge........................................................................508 ..........................................509 11.3.4 Electromagnetic Interference Shielding (1;MI Shielding)............3 9 ...........510 11.4 Magnetic Properties ...................................................................._U) 11.4.1 Magnetizability........................................ 114 2 Magnetic Resonance.................................... ..................511 References ......................................... 12 Optical Properties of Polymers ............................................................3,3 12.1 Index of Refraction ........................................................................................513 12.2 Photoelasticity and Birefringence ................................................................316 12.3 Transparency, Reflection, Absorption, and Transmittance........................520 12.4 Gloss................................................................................................................326 12.5 Color................................................................................................................327 12.6 Infrared Spectroscopy....................................................................................331 12.7 Infrared Pyrometry........................................................................................533 12.8 Heating with Infrared Radiation ..................................................................534 References ..............................................................................................................536 13 Permeability Properties of Polymers..................................................537 13.1 Sorption ..........................................................................................................537 13.2 Diffusion and Permeation..............................................................................539 13.3 Measuring S, D, and P....................................................................................544 13.4 Corrosion of Polymers and Cracking [5]......................................................545 13.5 Diffusion of Polymer Molecules and Self-diffusion ....................................548 References ..............................................................................................................548 14 Acoustic Properties of Polymers..........................................................549 14.1 Speed of Sound ..............................................................................................549 14.2 Sound Reflection ..............................................................551 14.3 Sound Absorption ..................................................................552 References ............................................................................553 Appendix ..............................................................................................................555 Appendix I......................................................................................................556 Appendix II .......................... Appendix III..... ................................................................................................dod Appendix IV - Balance Equations........................................................................584 Continuity Equation ......................................................................................584 Energy Equation for a Newtonian Fluid ......................................................584 Momentum Balance ......................................................................................585 Momentum Equation in Terms of r..............................................................585 Navier-Stokes Equation..................................................................................585 Index......................................................................................................................587
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discipline	Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik
edition	3. ed.
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genre	1\p (DE-588)4123623-3 Lehrbuch gnd-content
genre_facet	Lehrbuch
id	DE-604.BV040453513
illustrated	Illustrated
indexdate	2024-07-10T00:24:15Z
institution	BVB
isbn	9781569905142 9781569905241
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-025301104
oclc_num	813278497
open_access_boolean
owner	DE-573 DE-12 DE-703 DE-1102 DE-M347 DE-91G DE-BY-TUM DE-29T DE-210 DE-83 DE-898 DE-BY-UBR DE-1051 DE-11
owner_facet	DE-573 DE-12 DE-703 DE-1102 DE-M347 DE-91G DE-BY-TUM DE-29T DE-210 DE-83 DE-898 DE-BY-UBR DE-1051 DE-11
physical	XIX, 595 S. graph. Darst. 25 cm
publishDate	2012
publishDateSearch	2012
publishDateSort	2012
publisher	Hanser [u.a.]
record_format	marc
spelling	Osswald, Tim A. 1958- Verfasser (DE-588)1062689453 aut Materials science of polymers for engineers Tim A. Osswald ; Georg Menges Material science of polymers for engineers 3. ed. Munich Hanser [u.a.] 2012 XIX, 595 S. graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Matières plastiques ram Polymères ram Plastics Polymers Werkstoffkunde (DE-588)4079184-1 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Kunststoff (DE-588)4033676-1 gnd rswk-swf Stoffeigenschaft (DE-588)4192147-1 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Kunststoff (DE-588)4033676-1 s Werkstoffkunde (DE-588)4079184-1 s DE-604 Polymere (DE-588)4046699-1 s Stoffeigenschaft (DE-588)4192147-1 s 2\p DE-604 Menges, Georg Sonstige oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025301104&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Osswald, Tim A. 1958- Materials science of polymers for engineers Matières plastiques ram Polymères ram Plastics Polymers Werkstoffkunde (DE-588)4079184-1 gnd Polymere (DE-588)4046699-1 gnd Kunststoff (DE-588)4033676-1 gnd Stoffeigenschaft (DE-588)4192147-1 gnd
subject_GND	(DE-588)4079184-1 (DE-588)4046699-1 (DE-588)4033676-1 (DE-588)4192147-1 (DE-588)4123623-3
title	Materials science of polymers for engineers
title_alt	Material science of polymers for engineers
title_auth	Materials science of polymers for engineers
title_exact_search	Materials science of polymers for engineers
title_full	Materials science of polymers for engineers Tim A. Osswald ; Georg Menges
title_fullStr	Materials science of polymers for engineers Tim A. Osswald ; Georg Menges
title_full_unstemmed	Materials science of polymers for engineers Tim A. Osswald ; Georg Menges
title_short	Materials science of polymers for engineers
title_sort	materials science of polymers for engineers
topic	Matières plastiques ram Polymères ram Plastics Polymers Werkstoffkunde (DE-588)4079184-1 gnd Polymere (DE-588)4046699-1 gnd Kunststoff (DE-588)4033676-1 gnd Stoffeigenschaft (DE-588)4192147-1 gnd
topic_facet	Matières plastiques Polymères Plastics Polymers Werkstoffkunde Polymere Kunststoff Stoffeigenschaft Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025301104&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT osswaldtima materialsscienceofpolymersforengineers AT mengesgeorg materialsscienceofpolymersforengineers AT osswaldtima materialscienceofpolymersforengineers AT mengesgeorg materialscienceofpolymersforengineers

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