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PVC additives: performance, chemistry, developments, and sustainability

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Bibliographische Detailangaben
Beteilige Person:	Schiller, Michael 1959- (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Munich Hanser [2022]
Ausgabe:	2nd edition
Schlagwörter:	Kunststoffadditiv Polyvinylchlorid Stabilisator > Chemie Nachhaltigkeit Werkstoffkunde Kunststoff Additive Stabilisatoren FBKTADDI: Additive PLAS2014 SCIE2014
Links:	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033334552&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XV, 499 Seiten Illustrationen, Diagramme 25 cm
ISBN:	9781569908716

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adam_text	CONTENTS PREFACE ....................................................................................................... V ABOUT THE AUTHOR ...................................................................................... VII 1 PVC STABILIZERS .................................................................................. 1 1.1 THE PRODUCTION OF POLYVINYL CHLORIDE (PVC) ............................................ 1 1.2 THERMAL DEGRADATION OF PVC ..................................................................... 6 1.3 ONE-PACKS ..................................................................................................... 8 1.4 HEAT STABILIZERS FOR PVC ............................................................................. 10 1.4.1 METAL-FREE BASE STABILIZERS ............................................................. 11 1.4.2 METAL SOAPS AS BASE STABILIZERS ..................................................... 16 1.4.3 TIN STABILIZERS ................................................................................. 22 1.4.4 LEAD STABILIZERS ............................................................................... 29 1.4.5 RARE EARTH STABILIZERS ..................................................................... 33 1.4.6 ANTIMONY AND BISMUTH STABILIZERS .............................................. 34 1.5 COSTABILIZERS FOR PVC ................................................................................... 35 1.5.1 INORGANIC COSTABILIZERS ................................................................... 35 1.5.2 ANTIOXIDANTS ..................................................................................... 40 1.5.3 /LDIKETONES AND DERIVATIVES .......................................................... 43 1.5.4 EPOXY COMPOUNDS .......................................................................... 46 1.5.5 ORGANIC PHOSPHITES ........................................................................ 48 1.5.6 POLYOLS ............................................................................................... 50 1.5.7 PERCHLORATES .................................................................................... 53 1.6 GUIDE FORMULATIONS .................................................................................... 53 1.6.1 ADDITIVES FOR PVC PRODUCTS IN CONTACT WITH DRINKING WATER AND FOODSTUFFS ................................................................................ 53 1.6.2 INDIVIDUAL GUIDE FORMULATIONS ..................................................... 53 1.6.2.1 GUIDE FORMULATIONS FOR PIPES ......................................... 54 1.6.2.2 GUIDE FORMULATIONS FOR PROFILES ..................................... 57 1.6.2.3 GUIDE FORMULATIONS FOR SHEETS ....................................... 60 1.6.2.4 GUIDE FORMULATIONS FOR RIGID FILMS ............................... 62 1.6.2.5 GUIDE FORMULATIONS FOR CABLES ....................................... 65 1.6.2.6 GUIDE FORMULATIONS FOR FLEXIBLE PVC APPLICATIONS ... 69 1.6.2.7 GUIDE FORMULATIONS FOR PLASTISOL APPLICATIONS ............. 74 1.7 TEST METHODS ................................................................................................. 80 1.7.1 MIXING ............................................................................................... 81 1.7.2 DISPERSIBILITY ................................................................................... 82 1.7.3 PRODUCTION OF ROLLED SHEETS ........................................................... 83 1.7.4 RHEOLOGY ........................................................................................... 84 1.7.5 DEGREE OF GELATION ........................................................................... 87 1.7.6 SOFTENING TEMPERATURE ................................................................ 89 1.7.7 THERMOSTABILITY ............................................................................... 89 1.7.7.1 STATIC THERMOSTABILITY ..................................................... 89 1.7.7.2 DYNAMIC THERMOSTABILITY ............................................... 92 1.7.8 LIGHT STABILITY ................................................................................... 95 1.7.9 COLOR ................................................................................................. 98 1.7.10 GLOSS ................................................................................................. 100 1.7.11 ELECTRICAL VOLUME RESISTANCE, SURFACE RESISTANCE, AND CAPACITANCE ............................................................................... 101 1.7.12 FOGGING ............................................................................................. 103 1.7.13 PLATE-OUT ........................................................................................... 105 1.7.14 SHORE HARDNESS ............................................................................... 105 1.7.15 IMPACT STRENGTH ............................................................................... 106 1.7.16 ELONGATION AT BREAK AND ULTIMATE TENSILE STRENGTH ..................... 109 1.7.17 PINKING TEST ..................................................................................... 109 1.7.18 DRY BLEND FLOW ................................................................................. 110 1.7.19 LOI ..................................................................................................... ILL 1.8 TECHNICAL PROBLEMS WITH PVC PROCESSING AND SUGGESTIONS FOR SOLUTIONS ................................................................................................. 112 1.8.1 PLATE-OUT ........................................................................................... 112 1.8.2 PHOTO EFFECTS ..................................................................................... 112 1.8.3 EXTRUSION TROUBLESHOOTING GUIDE ................................................. 113 1.9 STABILIZER PRODUCERS ...................................................................................... 119 2 ADDITIONAL PVC ADDITIVES ............................................................... 133 2.1 LUBRICANTS ................................................................................................ 133 2.1.1 INTRODUCTION ..................................................................................... 133 2.1.2 LUBRICANTS: CHEMISTRY AND MECHANISMS OF ACTION .................... 137 2.1.3 METHODS TO CHARACTERIZE AND TEST LUBRICANTS .............................. 154 2.1.4 LUBRICANT PRODUCERS ....................................................................... 155 2.2 FUNCTIONAL FILLERS ......................................................................................... 156 2.2.1 INTRODUCTION ..................................................................................... 156 2.2.2 FILLERS: CHEMISTRY AND EFFECTS ....................................................... 157 2.2.3 METHODS TO CHARACTERIZE AND TEST FUNCTIONAL FILLERS ................... 184 2.2.4 FILLER PRODUCERS ............................................................................... 185 2.3 PLASTICIZERS ................................................................................................... 187 2.3.1 INTRODUCTION ..................................................................................... 187 2.3.2 PLASTICIZERS: CHEMISTRY AND MECHANISMS OF ACTION .................... 190 2.3.3 BIO-BASED PLASTICIZERS ..................................................................... 210 2.3.3.1 INTRODUCTION ..................................................................... 210 2.3.3.2 DRIVERS FOR THE DEVELOPMENT OF BIO-BASED CHEMICALS . 211 2.3.3.3 BIO-BASED CONTENT AND LABELING .................................... 211 2.3.3.4 RENEWABLE FEEDSTOCKS FOR BIO-BASED PLASTICIZERS ........ 212 2.3.3.5 COMPOSITIONS OF BIO-BASED PLASTICIZERS ........................ 213 2.3.4 BIO-ATTRIBUTED PLASTICIZERS ............................................................ 239 2.3.5 METHODS TO CHARACTERIZE AND TEST PLASTICIZERS ............................ 241 2.3.6 PLASTICIZER PRODUCERS ....................................................................... 242 2.4 TITANIUM DIOXIDE ......................................................................................... 245 2.4.1 INTRODUCTION ..................................................................................... 245 2.4.2 TITANIUM DIOXIDE: CHEMISTRY AND MECHANISMS OF ACTION ........... 246 2.4.3 METHODS TO CHARACTERIZE AND TEST TITANIUM DIOXIDES ................ 256 2.4.4 TITANIUM DIOXIDE PRODUCERS .......................................................... 257 2.5 PROCESSING AIDS AND IMPACT MODIFIERS ..................................................... 257 2.5.1 INTRODUCTION ..................................................................................... 257 2.5.2 THE CHEMISTRY AND EFFECTS OF PROCESSING AIDS AND IMPACT MODIFIERS ............................................................................. 258 2.5.2.1 PROCESSING AIDS OR FLOW MODIFIERS ................................ 258 2.5.2.2 IMPACT MODIFIERS ............................................................. 262 2.5.3 METHODS TO CHARACTERIZE AND TEST PROCESSING AIDS AND IMPACT MODIFIERS ............................................................................. 279 2.5.3.1 FLOW MODIFIERS AND PROCESSING AIDS ............................ 279 2.5.3.2 IMPACT MODIFIERS ............................................................. 280 2.5.4 PRODUCERS OF PROCESSING AIDS AND IMPACT MODIFIERS .................. 284 2.6 CHEMICAL BLOWING AGENTS ........................................................................... 287 2.7 ANTISTATICS ..................................................................................................... 296 3 UNCHARTED TERRITORY IN PVC PROCESSING: PLATE-OUT ....................... 309 3.1 LITERATURE REVIEW OF PLATE-OUT ................................................................... 309 3.2 PLATE-OUT IN THE VENTING UNIT ..................................................................... 314 3.3 PLATE-OUT IN THE TOOLING AND ADAPTER ......................................................... 316 3.3.1 TYPICAL COMPOSITIONS OF PLATE-OUT FROM THE TOOLING .................. 316 3.3.2 LABORATORY EXPERIMENTS ................................................................. 317 3.3.2.1 INTRODUCTION ..................................................................... 317 3.3.2.2 THE INFLUENCE OF MOISTURE ............................................... 319 3.3.2.3 THE INFLUENCE OF THE MIXING PROCESS .............................. 322 3.3.2.4 THE INFLUENCE OF TOOLING QUALITY ................................... 324 3.3.2.5 THE INFLUENCES OF MASS TEMPERATURE, MASS PRESSURE AND EXTRUSION TORQUE, CHALK, TITANIUM DIOXIDE, AND MODIFIERS ................................................................... 324 3.3.2.6 THE INFLUENCE OF LUBRICANTS AND METAL SOAPS .............. 339 3.3.3 SUMMARY FOR PLATE-OUT IN TOOLING AND ADAPTER .......................... 348 3.4 PLATE-OUT IN THE CALIBRATION ....................................................................... 350 3.4.1 TYPICAL COMPOSITIONS OF CALIBRATION PLATE-OUT ............................ 350 3.4.2 POSSIBLE MECHANISMS FOR THE FORMATION OF PLATE-OUT IN THE CALIBRATION ....................................................................................... 350 3.4.3 INVESTIGATIONS OF PLATE-OUT FORMATION IN THE CALIBRATION .......... 353 3.5 TROUBLESHOOTING GUIDE FOR THE PREVENTION OF PLATE-OUT ............................ 356 4 UNCHARTED TERRITORY IN THE USE OF PVC PRODUCTS: PHOTO EFFECTS ............................................................................. 359 4.1 LITERATURE REVIEW OF PHOTOCHEMICAL DEGRADATION OF PVC PRODUCTS .... 359 4.1.1 PHOTOCHEMICAL DEGRADATION OF PVC ................................................ 359 4.1.2 DEGRADATION OF PVC PHTHALATE PLASTICIZERS DURING WEATHERING ....................................................................................... 366 4.2 PHOTOBLUING ................................................................................................... 367 4.2.1 FUNDAMENTAL EXPERIMENTS ............................................................. 367 4.2.2 RESULTS AND DISCUSSION ................................................................... 368 4.2.2.1 REPRODUCIBILITY AND THE COMPARISON OF XENO TEST AND OUTDOOR WEATHERING ................................................ 368 4.2.2.2 INFLUENCE OF THE PVC STABILIZER ...................................... 369 4.2.2.3 INFLUENCE OF THE STABILIZER PRODUCER ............................... 371 4.2.2.4 INFLUENCE OF PVC, CHALK, AND THE PROCESSING CONDITIONS ......................................................................... 372 4.2.2.5 INFLUENCE OF MODIFIERS AND WHITE PIGMENT .................. 373 4.2.2.6 INFLUENCE OF THE LATTICE STRUCTURE OF TITANIUM DIOXIDE 374 4.2.2.7 INFLUENCE OF THE TITANIUM DIOXIDE COATING .................. 375 4.2.2.8 INFLUENCE OF TITANIUM DIOXIDE LEVELS ............................. 377 4.2.2.9 INFLUENCE OF OXYGEN ......................................................... 377 4.2.3 CONCLUSIONS AND SUMMARY FOR PHOTOBLUING ................................ 378 4.2.4 OUTLOOK ............................................................................................. 379 4.3 PHOTOPINKING ............................................................................................... 379 4.4 PHOTOGRAYING ................................................................................................. 382 4.4.1 TRUE PHOTOGRAYING .......................................................................... 382 4.4.2 APPARENT PHOTOGRAYING ................................................................... 383 4.5 ENVIRONMENTAL INFLUENCES ON THE WEATHERING OF PLASTIC WINDOWS ......... 386 4.5.1 INTRODUCTION .................................................................................... 386 4.5.2 RUST FILM ........................................................................................ 387 4.5.3 SOOT .................................................................................................. 390 4.5.4 POLLEN .............................................................................................. 391 4.5.5 SIMULATION OF ENVIRONMENTAL EFFECTS ............................................. 391 4.5.5.1 THE SAMPLES .................................................................... 392 4.5.5.2 A SIMULATION METHOD: THE BANDOL WHEEL ..................... 400 4.5.5.3 IRRADIATION TRIALS WITHOUT CONTAMINANTS ...................... 401 4.5.5.4 IRRADIATION TRIALS WITH RUST FILM WJ 364 AS CONTAMINANT ..................................................................... 403 4.5.5.5 IRRADIATION TRIALS WITH SOOT WJ 365 AS CONTAMINANT .. 407 4.5.5.6 IRRADIATION TRIALS WITH POLLEN AS CONTAMINANT ............ 409 4.5.5.7 SUMMARY OF BANDOL WHEEL EXPERIMENTS AND CONCLUSIONS ................................................................ 413 4.5.6 INVESTIGATIONS BY XENO TEST ........................................................... 414 4.5.7 RESTORATION ....................................................................................... 417 4.5.8 WHAT HAS CHANGED IN WINDOW PROFILES EXTRUSION FROM 1985 TO 2005: A REVIEW .......................................................... 418 4.6 CHALK AS FILLER IN U-PVC PRODUCTS: NEW INSIGHTS INTO INFLUENCES ON WEATHERING BEHAVIOR ................................................................... 423 4.6.1 FORMATION OF CALCIUM OXALATE ....................................................... 424 4.6.1.1 CALCIUM OXALATE AND OXALIC ACID: INFLUENCE ON ARTIFICIAL WEATHERING ................................................. 425 4.6.1.2 CALCIUM OXALATE: A PRODUCT RESULTING FROM WEATHERING OF PLASTIC WINDOW FRAMES? ...................... 425 4.6.1.3 SUMMARY OF FINDINGS REGARDING OXALATE FORMATION .. 429 4.6.2 INFLUENCE OF TRACE ELEMENTS IN CHALK ON WEATHERING ................ 429 4.6.2.1 DIRECTED CONTAMINATION BY TRACE ELEMENTS ................ 429 4.6.2.2 RESULTS OF ARTIFICIAL WEATHERING WITH XENO TEST .......... 432 4.6.2.3 SUMMARY OF INVESTIGATIONS INTO THE INFLUENCE OF TRACE ELEMENTS IN CHALKS ON WEATHERING OF PVC PROFILES ................................................................. 435 4.6.3 CALCIUM CARBONATE AS FILLER AND THE CHALKING OF PVC PIPES ... 435 4.6.3.1 MATERIALS AND METHODS ................................................... 436 4.6.3.2 INFLUENCE ON APPEARANCE ............................................... 438 4.6.3.3 RESULTS OF OUTDOOR WEATHERING ...................................... 439 4.6.3.4 CONCLUSION AND SUMMARY ............................................... 445 5 PVC AND SUSTAINABILITY ....................................................................... 449 5.1 A CHANGING WORLD ....................................................................................... 449 5.2 FROM BUSINESS TO BUSINESS ......................................................................... 450 5.3 FROM BUSINESS TO SOCIETY ........................................................................... 452 5.4 CHEMICALS IN A CHANGING WORLD ................................................................. 455 5.5 THE RELEVANCE FOR PVC ................................................................................. 456 5.6 PVC IN THE SCIENTIFIC ASSESSMENT ............................................................... 458 5.7 THE ENGAGEMENT OF THE EUROPEAN PVC INDUSTRY FOR SUSTAINABLE DEVELOPMENT ........................................................................... 460 5.8 THE SUSTAINABILITY CHALLENGES RESULTING FROM THE TNS FRAMEWORK .... 465 5.9 BIODIVERSITY-THE SIXTH CHALLENGE? ........................................................... 468 5.10 SCHEDULE FOR A SUSTAINABLE FUTURE ............................................................. 468 5.11 DO WE ACCEPT THE CHALLENGES? ................................................................... 474 5.12 SYNERGISTIC PROGRESS WITH VINYL 2010 AND VINYLPLUS ............................ 475 5.13 INNOVATION BY PROGRESS ............................................................................... 476 5.14 FURTHER ADVANTAGES OF PROACTIVITY FOR A SUSTAINABLE DEVELOPMENT .... 479 5.15 THE PEDIGREE FOR PVC ................................................................................... 482 5.16 SUSTAINABILITY WITHOUT MYTHS ..................................................................... 488 5.17 PVC AND THE FUTURE ..................................................................................... 489 5.18 ASSOCIATIONS, PLATFORMS, CONFERENCES, AND PUBLICATIONS IN THE PVC INDUSTRY WORLDWIDE ................................................................. 490 INDEX .............................................................................................................. 497
any_adam_object	1
author	Schiller, Michael 1959-
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edition	2nd edition
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id	DE-604.BV047953222
illustrated	Illustrated
indexdate	2024-12-20T19:33:21Z
institution	BVB
institution_GND	(DE-588)1064064051
isbn	9781569908716
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033334552
oclc_num	1317692523
open_access_boolean
owner	DE-703 DE-210 DE-12 DE-91 DE-BY-TUM
owner_facet	DE-703 DE-210 DE-12 DE-91 DE-BY-TUM
physical	XV, 499 Seiten Illustrationen, Diagramme 25 cm
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Hanser
record_format	marc
spellingShingle	Schiller, Michael 1959- PVC additives performance, chemistry, developments, and sustainability Kunststoffadditiv (DE-588)4166053-5 gnd Polyvinylchlorid (DE-588)4076253-1 gnd Stabilisator Chemie (DE-588)4255686-7 gnd Nachhaltigkeit (DE-588)4326464-5 gnd Werkstoffkunde (DE-588)4079184-1 gnd
subject_GND	(DE-588)4166053-5 (DE-588)4076253-1 (DE-588)4255686-7 (DE-588)4326464-5 (DE-588)4079184-1
title	PVC additives performance, chemistry, developments, and sustainability
title_auth	PVC additives performance, chemistry, developments, and sustainability
title_exact_search	PVC additives performance, chemistry, developments, and sustainability
title_full	PVC additives performance, chemistry, developments, and sustainability Michael Schiller
title_fullStr	PVC additives performance, chemistry, developments, and sustainability Michael Schiller
title_full_unstemmed	PVC additives performance, chemistry, developments, and sustainability Michael Schiller
title_short	PVC additives
title_sort	pvc additives performance chemistry developments and sustainability
title_sub	performance, chemistry, developments, and sustainability
topic	Kunststoffadditiv (DE-588)4166053-5 gnd Polyvinylchlorid (DE-588)4076253-1 gnd Stabilisator Chemie (DE-588)4255686-7 gnd Nachhaltigkeit (DE-588)4326464-5 gnd Werkstoffkunde (DE-588)4079184-1 gnd
topic_facet	Kunststoffadditiv Polyvinylchlorid Stabilisator Chemie Nachhaltigkeit Werkstoffkunde
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033334552&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT schillermichael pvcadditivesperformancechemistrydevelopmentsandsustainability AT hanserpublications pvcadditivesperformancechemistrydevelopmentsandsustainability

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