Verfügbarkeit: Recycling process of permanent magnets by polymer binder using injection molding technique

Recycling process of permanent magnets by polymer binder using injection molding technique:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Kapustka, Katarzyna Joanna (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Clausthal-Zellerfeld Papierflieger Verlag 2022
Schlagworte:	Elektronikschrott Polymermatrix-Verbundwerkstoff Hartmagnetische Legierung Spritzgießen Seltenerdmetall Recycling Eisenlegierung Metallrückgewinnung Neodymlegierung Bor Injection Molding Polymer Binder Recycing Process Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	193 Seiten 21 cm x 15 cm, 325 g
ISBN:	9783869488868 3869488867

Internformat

MARC


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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ZUSAMMENFASSUNG ....................................................................................................................... 5 ABSTRACT ............................................................................................................................................ 7 INTRODUCTION AND MOTIVATION .......................................................................................... 17 THE AIM OF THE THESIS .............................................................................................................................. 19 OVERVIEW OF THESIS STRUCTURE ................................................................................................................. 21 TECHNOLOGICAL BACKGROUND ................................................................................................................... 24 CHAPTER 1 ......................................................................................................................................... 27 RESEARCH BACKGROUND OF MAGNETS ............................................................................... 27 1.1. BASICS AND TERMINOLOGY ......................................................................................................... 27 1.2. CRYSTALLOGRAPHIC STRUCTURE AND PHASE DIAGRAM OF NDFEB ALLOYS ................................... 30 1.3. PARAMETERS OF HYSTERESIS CURVES ......................................................................................... 34 1.4. DEMAGNETIZATION .................................................................................................................... 37 1.5. ANISOTROPY ............................................................................................................................... 38 CHAPTER 2 ......................................................................................................................................... 42 THE STATE OF THE ART ................................................................................................................ 42 2.1. HARD MAGNETIC TYPES ............................................................................................................. 43 2.2. MANUFACTURING PROCESS OF NEODYMIUM MAGNETS ............................................................. 45 2.2.1. POWDER METALLURGY OF RARE EARTH PERMANENT MAGNETS ................................................. 45 2.2.2. SPARK PLASMA SINTERING ................................................................................................... 47 2.2.3. MECHANICAL ALLOYING ....................................................................................................... 49 2.3. RECYCLING METHODS OF PERMANENT MAGNETS ..................................................................... 49 2.4. SUMMARY ................................................................................................................................ 52 CHAPTER 3 ......................................................................................................................................... 54 VISCOELASTIC MATERIAL BEHAVIOR .................................................................................... 54 3.1. MULTIPHASE SYSTEM OF POLYMERS .......................................................................................... 54 3.2. VISCOELASTIC MATERIAL BEHAVIOR ............................................................................................ 57 9 3.3. THERMORHEOLOGICAL BEHAVIOR ................................................................................................ 58 3.4. SUMMARY ................................................................................................................................. 61 CHAPTER 4 .......................................................................................................................................... 63 EXPERIMENTAL AND METHODS ................................................................................................ 63 4.1. THERMOPLASTIC MATRIX ............................................................................................................ 63 4.2. FILLER MATERIAL ......................................................................................................................... 70 4.3. INFLUENCE OF PARTICLE SIZE AND GEOMETRY OF POLYMER AND FILLER ....................................... 73 4.4. COMPOUNDING ......................................................................................................................... 76 4.5. INJECTION MOLDING ................................................................................................................... 79 CHAPTER 5 ......................................................................................................................................... 84 TECHNICAL CHALLENGES IN DEVELOPED RECYCLING PROCESS ............................... 84 5.1. EXTRACTION ................................................................................................................................ 84 5.2. DEMAGNETIZATION ..................................................................................................................... 89 5.3. PULVERIZATION ........................................................................................................................... 90 5.4. SUMMARY .................................................................................................................................. 92 CHAPTER 6 .......................................................................................................................................... 93 CHARACTERISATION BY ANALYTICAL METHODS ............................................................. 93 6.1. MICROSCOPY ANALYSIS OF NDFEB POWDER ............................................................................... 94 6.2. SCANNING MICROSCOPY ANALYSIS (SEM) OF POWDER ............................................................. 95 6.3. X-RAY DIFFRACTION PATTERNS (XRD) ........................................................................................ 96 6.3.1. CHEMICAL COMPOSITION .................................................................................................... 99 6.4. PACKAGING DENSITY AND PARTICLE DISTRIBUTION ................................................................... 100 6.5. FILLING LEVEL ............................................................................................................................. 103 6.6. THERMAL CHARACTERIZATION - TGA .......................................................................................106 6.7. FLOW BEHAVIOR ......................................................................................................................... 110 6.8. DEGREE OF FILLING - DEPENDENT FLOW BEHAVIOR - VISCOSITY ................................................. 112 6.9. MAGNETIC PROPERTIES ............................................................................................................. 116 IO 6.10. INFLUENCE OF MAGNETIC FIELD OF NDFEB PARTICLES ON RHEOLOGICAL PROPERTIES OF THE COMPOSITE ...................................................................................................................................... 120 6.11. SUMMARY .............................................................................................................................. 125 6.12. MODELING FACILITIES AND VISUALIZATION EXAMPLE ............................................................... 130 6.13. SUMMARY .............................................................................................................................. 137 CHAPTER 7 ....................................................................................................................................... 140 ECONOMIC PROCESS EVALUATION ........................................................................................ 140 7.1. PROCESS FAILURE MODE EFFECTS ANALYSIS .............................................................................. 140 7.2. VSD - VALUE STREAM DESIGN ............................................................................................... 148 7.3. RESULTS OF VALUE STREAM ANALYSIS ....................................................................................... 151 7.4. SUMMARY ............................................................................................................................... 157 CONCLUSION ................................................................................................................................... 158 OUTLOOK ......................................................................................................................................... 160 BIBLIOGRAPHY ............................................................................................................................... 161 APPENDICES .................................................................................................................................... 180 APPENDIX A .................................................................................................................................... 181 APPENDIX B ....................................................................................................................................187 APPENDIX C ................................................................................................................................... 190 APPENDIX D ................................................................................................................................... 192 11
adam_txt	TABLE OF CONTENTS ZUSAMMENFASSUNG . 5 ABSTRACT . 7 INTRODUCTION AND MOTIVATION . 17 THE AIM OF THE THESIS . 19 OVERVIEW OF THESIS STRUCTURE . 21 TECHNOLOGICAL BACKGROUND . 24 CHAPTER 1 . 27 RESEARCH BACKGROUND OF MAGNETS . 27 1.1. BASICS AND TERMINOLOGY . 27 1.2. CRYSTALLOGRAPHIC STRUCTURE AND PHASE DIAGRAM OF NDFEB ALLOYS . 30 1.3. PARAMETERS OF HYSTERESIS CURVES . 34 1.4. DEMAGNETIZATION . 37 1.5. ANISOTROPY . 38 CHAPTER 2 . 42 THE STATE OF THE ART . 42 2.1. HARD MAGNETIC TYPES . 43 2.2. MANUFACTURING PROCESS OF NEODYMIUM MAGNETS . 45 2.2.1. POWDER METALLURGY OF RARE EARTH PERMANENT MAGNETS . 45 2.2.2. SPARK PLASMA SINTERING . 47 2.2.3. MECHANICAL ALLOYING . 49 2.3. RECYCLING METHODS OF PERMANENT MAGNETS . 49 2.4. SUMMARY . 52 CHAPTER 3 . 54 VISCOELASTIC MATERIAL BEHAVIOR . 54 3.1. MULTIPHASE SYSTEM OF POLYMERS . 54 3.2. VISCOELASTIC MATERIAL BEHAVIOR . 57 9 3.3. THERMORHEOLOGICAL BEHAVIOR . 58 3.4. SUMMARY . 61 CHAPTER 4 . 63 EXPERIMENTAL AND METHODS . 63 4.1. THERMOPLASTIC MATRIX . 63 4.2. FILLER MATERIAL . 70 4.3. INFLUENCE OF PARTICLE SIZE AND GEOMETRY OF POLYMER AND FILLER . 73 4.4. COMPOUNDING . 76 4.5. INJECTION MOLDING . 79 CHAPTER 5 . 84 TECHNICAL CHALLENGES IN DEVELOPED RECYCLING PROCESS . 84 5.1. EXTRACTION . 84 5.2. DEMAGNETIZATION . 89 5.3. PULVERIZATION . 90 5.4. SUMMARY . 92 CHAPTER 6 . 93 CHARACTERISATION BY ANALYTICAL METHODS . 93 6.1. MICROSCOPY ANALYSIS OF NDFEB POWDER . 94 6.2. SCANNING MICROSCOPY ANALYSIS (SEM) OF POWDER . 95 6.3. X-RAY DIFFRACTION PATTERNS (XRD) . 96 6.3.1. CHEMICAL COMPOSITION . 99 6.4. PACKAGING DENSITY AND PARTICLE DISTRIBUTION . 100 6.5. FILLING LEVEL . 103 6.6. THERMAL CHARACTERIZATION - TGA .106 6.7. FLOW BEHAVIOR . 110 6.8. DEGREE OF FILLING - DEPENDENT FLOW BEHAVIOR - VISCOSITY . 112 6.9. MAGNETIC PROPERTIES . 116 IO 6.10. INFLUENCE OF MAGNETIC FIELD OF NDFEB PARTICLES ON RHEOLOGICAL PROPERTIES OF THE COMPOSITE . 120 6.11. SUMMARY . 125 6.12. MODELING FACILITIES AND VISUALIZATION EXAMPLE . 130 6.13. SUMMARY . 137 CHAPTER 7 . 140 ECONOMIC PROCESS EVALUATION . 140 7.1. PROCESS FAILURE MODE EFFECTS ANALYSIS . 140 7.2. VSD - VALUE STREAM DESIGN . 148 7.3. RESULTS OF VALUE STREAM ANALYSIS . 151 7.4. SUMMARY . 157 CONCLUSION . 158 OUTLOOK . 160 BIBLIOGRAPHY . 161 APPENDICES . 180 APPENDIX A . 181 APPENDIX B .187 APPENDIX C . 190 APPENDIX D . 192 11
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author	Kapustka, Katarzyna Joanna
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ctrlnum	(OCoLC)1348179802 (DE-599)DNB1270186779
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Thesis Book
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publisher	Papierflieger Verlag
record_format	marc
spelling	Kapustka, Katarzyna Joanna Verfasser (DE-588)1274681944 aut Recycling process of permanent magnets by polymer binder using injection molding technique submitted by Katarzyna Joanna Kapustka Clausthal-Zellerfeld Papierflieger Verlag 2022 193 Seiten 21 cm x 15 cm, 325 g txt rdacontent n rdamedia nc rdacarrier Dissertation Technische Universität Clausthal 2022 Elektronikschrott (DE-588)4324135-9 gnd rswk-swf Polymermatrix-Verbundwerkstoff (DE-588)116048743X gnd rswk-swf Hartmagnetische Legierung (DE-588)4159179-3 gnd rswk-swf Spritzgießen (DE-588)4056561-0 gnd rswk-swf Seltenerdmetall (DE-588)4132099-2 gnd rswk-swf Recycling (DE-588)4076573-8 gnd rswk-swf Eisenlegierung (DE-588)4014081-7 gnd rswk-swf Metallrückgewinnung (DE-588)4169626-8 gnd rswk-swf Neodymlegierung (DE-588)4255857-8 gnd rswk-swf Bor (DE-588)4007709-3 gnd rswk-swf Injection Molding Polymer Binder Recycing Process (DE-588)4113937-9 Hochschulschrift gnd-content Elektronikschrott (DE-588)4324135-9 s Neodymlegierung (DE-588)4255857-8 s Eisenlegierung (DE-588)4014081-7 s Bor (DE-588)4007709-3 s Hartmagnetische Legierung (DE-588)4159179-3 s Polymermatrix-Verbundwerkstoff (DE-588)116048743X s Recycling (DE-588)4076573-8 s Seltenerdmetall (DE-588)4132099-2 s Metallrückgewinnung (DE-588)4169626-8 s Spritzgießen (DE-588)4056561-0 s DE-604 Papierflieger Verlag (DE-588)1064204619 pbl DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033927844&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20221013 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Kapustka, Katarzyna Joanna Recycling process of permanent magnets by polymer binder using injection molding technique Elektronikschrott (DE-588)4324135-9 gnd Polymermatrix-Verbundwerkstoff (DE-588)116048743X gnd Hartmagnetische Legierung (DE-588)4159179-3 gnd Spritzgießen (DE-588)4056561-0 gnd Seltenerdmetall (DE-588)4132099-2 gnd Recycling (DE-588)4076573-8 gnd Eisenlegierung (DE-588)4014081-7 gnd Metallrückgewinnung (DE-588)4169626-8 gnd Neodymlegierung (DE-588)4255857-8 gnd Bor (DE-588)4007709-3 gnd
subject_GND	(DE-588)4324135-9 (DE-588)116048743X (DE-588)4159179-3 (DE-588)4056561-0 (DE-588)4132099-2 (DE-588)4076573-8 (DE-588)4014081-7 (DE-588)4169626-8 (DE-588)4255857-8 (DE-588)4007709-3 (DE-588)4113937-9
title	Recycling process of permanent magnets by polymer binder using injection molding technique
title_auth	Recycling process of permanent magnets by polymer binder using injection molding technique
title_exact_search	Recycling process of permanent magnets by polymer binder using injection molding technique
title_exact_search_txtP	Recycling process of permanent magnets by polymer binder using injection molding technique
title_full	Recycling process of permanent magnets by polymer binder using injection molding technique submitted by Katarzyna Joanna Kapustka
title_fullStr	Recycling process of permanent magnets by polymer binder using injection molding technique submitted by Katarzyna Joanna Kapustka
title_full_unstemmed	Recycling process of permanent magnets by polymer binder using injection molding technique submitted by Katarzyna Joanna Kapustka
title_short	Recycling process of permanent magnets by polymer binder using injection molding technique
title_sort	recycling process of permanent magnets by polymer binder using injection molding technique
topic	Elektronikschrott (DE-588)4324135-9 gnd Polymermatrix-Verbundwerkstoff (DE-588)116048743X gnd Hartmagnetische Legierung (DE-588)4159179-3 gnd Spritzgießen (DE-588)4056561-0 gnd Seltenerdmetall (DE-588)4132099-2 gnd Recycling (DE-588)4076573-8 gnd Eisenlegierung (DE-588)4014081-7 gnd Metallrückgewinnung (DE-588)4169626-8 gnd Neodymlegierung (DE-588)4255857-8 gnd Bor (DE-588)4007709-3 gnd
topic_facet	Elektronikschrott Polymermatrix-Verbundwerkstoff Hartmagnetische Legierung Spritzgießen Seltenerdmetall Recycling Eisenlegierung Metallrückgewinnung Neodymlegierung Bor Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033927844&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kapustkakatarzynajoanna recyclingprocessofpermanentmagnetsbypolymerbinderusinginjectionmoldingtechnique AT papierfliegerverlag recyclingprocessofpermanentmagnetsbypolymerbinderusinginjectionmoldingtechnique

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