PVC additives: performance, chemistry, developments, and sustainability
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Beteilige Person: | |
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Format: | Buch |
Sprache: | Englisch |
Veröffentlicht: |
Munich
Hanser
[2022]
|
Ausgabe: | 2nd edition |
Schlagwörter: | |
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 |
Internformat
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100 | 1 | |a Schiller, Michael |d 1959- |e Verfasser |0 (DE-588)1121621384 |4 aut | |
245 | 1 | 0 | |a PVC additives |b performance, chemistry, developments, and sustainability |c Michael Schiller |
250 | |a 2nd edition | ||
264 | 1 | |a Munich |b Hanser |c [2022] | |
264 | 4 | |c ©2022 | |
300 | |a XV, 499 Seiten |b Illustrationen, Diagramme |c 25 cm | ||
336 | |b txt |2 rdacontent | ||
337 | |b n |2 rdamedia | ||
338 | |b nc |2 rdacarrier | ||
650 | 0 | 7 | |a Kunststoffadditiv |0 (DE-588)4166053-5 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Polyvinylchlorid |0 (DE-588)4076253-1 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Stabilisator |g Chemie |0 (DE-588)4255686-7 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Nachhaltigkeit |0 (DE-588)4326464-5 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Werkstoffkunde |0 (DE-588)4079184-1 |2 gnd |9 rswk-swf |
653 | |a Kunststoff Additive | ||
653 | |a Stabilisatoren | ||
653 | |a FBKTADDI: Additive | ||
653 | |a PLAS2014 | ||
653 | |a SCIE2014 | ||
689 | 0 | 0 | |a Polyvinylchlorid |0 (DE-588)4076253-1 |D s |
689 | 0 | 1 | |a Stabilisator |g Chemie |0 (DE-588)4255686-7 |D s |
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Datensatz im Suchindex
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DE-BY-TUM_katkey | 2650247 |
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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- |
author_GND | (DE-588)1121621384 |
author_facet | Schiller, Michael 1959- |
author_role | aut |
author_sort | Schiller, Michael 1959- |
author_variant | m s ms |
building | Verbundindex |
bvnumber | BV047953222 |
classification_rvk | UV 9000 ZM 5300 |
classification_tum | WER 626 CIT 719 |
ctrlnum | (OCoLC)1317692523 (DE-599)DNB1247121828 |
discipline | Chemie / Pharmazie Physik Werkstoffwissenschaften / Fertigungstechnik |
edition | 2nd edition |
format | Book |
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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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Bibliotheksmagazin
Signatur: |
0001 2022 A 2194
Lageplan |
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Exemplar 1 | Ausleihbar Am Standort |