Extrusion of polymers: theory and practice
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Munich
Hanser Publishers
[2019]
Cincinnati Hanser Publications |
Ausgabe: | 3rd edition |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XXIV, 485 Seiten Illustrationen, Diagramme 25 cm |
ISBN: | 9781569906095 1569906092 |
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MARC
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015 | |a 19,N38 |2 dnb | ||
016 | 7 | |a 1194486045 |2 DE-101 | |
020 | |a 9781569906095 |c Festeinband : EUR 149.99 (DE) (freier Preis), EUR 154.20 (AT) (freier Preis) |9 978-1-56990-609-5 | ||
020 | |a 1569906092 |9 1-56990-609-2 | ||
024 | 3 | |a 9781569906095 | |
028 | 5 | 2 | |a Bestellnummer: 559/00609 |
035 | |a (OCoLC)1126561000 | ||
035 | |a (DE-599)DNB1194486045 | ||
040 | |a DE-604 |b ger |e rda | ||
041 | 0 | |a eng | |
044 | |a gw |c XA-DE | ||
049 | |a DE-703 |a DE-91G |a DE-210 |a DE-12 |a DE-1050 |a DE-29T | ||
084 | |a ZM 8165 |0 (DE-625)157162: |2 rvk | ||
084 | |a CIT 740f |2 stub | ||
084 | |a 660 |2 sdnb | ||
100 | 1 | |a Chung, Chan I. |d 1939- |e Verfasser |0 (DE-588)122131738 |4 aut | |
245 | 1 | 0 | |a Extrusion of polymers |b theory and practice |c Chan I. Chung |
250 | |a 3rd edition | ||
264 | 1 | |a Munich |b Hanser Publishers |c [2019] | |
264 | 1 | |a Cincinnati |b Hanser Publications | |
264 | 4 | |c © 2019 | |
300 | |a XXIV, 485 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 Kunststoff |0 (DE-588)4033676-1 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Extrudieren |0 (DE-588)4071089-0 |2 gnd |9 rswk-swf |
653 | |a coextrusion | ||
653 | |a extensional flow | ||
653 | |a extruder | ||
653 | |a Extrudieren | ||
653 | |a extrusion | ||
653 | |a extrusion die | ||
653 | |a Kunststoffe | ||
653 | |a Kunststoffverarbeitung | ||
653 | |a melt flow | ||
653 | |a plastics | ||
653 | |a plastics processing | ||
653 | |a polymers | ||
653 | |a rheology | ||
653 | |a screw design | ||
653 | |a single screw | ||
653 | |a solid conveying | ||
653 | |a twin screw | ||
653 | |a viscoelastic | ||
653 | |a PLAS2019 | ||
689 | 0 | 0 | |a Extrudieren |0 (DE-588)4071089-0 |D s |
689 | 0 | |5 DE-604 | |
689 | 1 | 0 | |a Extrudieren |0 (DE-588)4071089-0 |D s |
689 | 1 | 1 | |a Kunststoff |0 (DE-588)4033676-1 |D s |
689 | 1 | |5 DE-604 | |
710 | 2 | |a Hanser Publications |0 (DE-588)1064064051 |4 pbl | |
776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-1-56990-738-2 |
856 | 4 | 2 | |m DNB Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031558625&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
999 | |a oai:aleph.bib-bvb.de:BVB01-031558625 |
Datensatz im Suchindex
_version_ | 1804180543225462784 |
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adam_text | CONTENTS
ACKNOWLEDGMENTS
.................................................................................
VII
ACKNOWLEDGMENTS
FOR
THE
SECOND
EDITION
.........................................
IX
ACKNOWLEDGMENTS
FOR
THE
THIRD
EDITION
.............................................
XI
PREFACE
.....................................................................................................
XIII
ABOUT
THE
AUTHOR
...................................................................................
XV
1
INTRODUCTION
....................................................................................
1
1.1
POLYMER
PROCESSING
...................................................................................
1
1.2
POLYMER
EXTRUSION
.....................................................................................
2
1.3
TYPES
OF
EXTRUDERS
....................................................................................
4
1.3.1
SINGLE-SCREW
EXTRUDERS
.................................................................
4
1.3.1.1
OVERVIEW
OF
SINGLE-SCREW
DESIGN
TECHNOLOGY
..............
8
1.3.2
TWIN-SCREW
EXTRUDERS
...................................................................
9
1.3.2.1
OVERVIEW
OF
INTERMESHING
CO-ROTATING
TWIN-SCREW
DESIGN
TECHNOLOGY
....................................
12
1.4
SCALE-UP
OF
SINGLE-SCREW
AND
TWIN-SCREW
EXTRUDERS
.............................
14
2
PHYSICAL
DESCRIPTION
OF
SINGLE-SCREW
EXTRUSION
.......................
17
2.1
OVERALL
FUNCTIONS
OF
A
SINGLE-SCREW
EXTRUDER
..........................................
17
2.2
FEEDING
FUNCTION
.......................................................................................
23
2.3
SOLID
CONVEYING
FUNCTION
.........................................................................
25
2.3.1
INITIAL
FORWARDING
AND
COMPACTION
OF
PELLETS
..............................
25
2.3.2
SOLID
BED
CONVEYING
.....................................................................
27
2.4
MELTING
FUNCTION
.......................................................................................
30
2.4.1
DISSIPATIVE
MELTING
.......................................................................
31
2.4.2
CONDUCTION
MELTING
.......................................................................
33
2.5
METERING
FUNCTION
.....................................................................................
33
2.6
MELT
QUALITY
AND
MELT
STABILITY
.................................................................
36
2.6.1
DEFINITION
OF
MELT
QUALITY
AND
MELT
STABILITY
...............................
36
2.6.2
MELT
PRESSURE
.................................................................................
37
2.6.3 MELT
TEMPERATURE
...........................................................................
39
2.6.4
MIXING
.............................................................................................
41
2.6.5
EFFECTIVE
RESIDENCE
TIME
AND
RESIDENCE
TIME
DISTRIBUTION
...........................................................................
43
2.7
THERMODYNAMIC
ANALYSIS
OF
POLYMER
EXTRUSION
....................................
45
2.8
COOLING
.......................................................................................................
49
2.8.1
BARREL
COOLING
...............................................................................
49
2.8.2
SCREW
COOLING
.................................................................................
49
2.9
MOTOR
POWER-DRIVE
TORQUE
RELATIONSHIP,
SCREW TORQUE
STRENGTH,
AND
TYPES
OF
MOTORS
...................................................................................
50
2.9.1
MOTOR
POWER-DRIVE
TORQUE
RELATIONSHIP
......................................
50
2.9.2
SCREW
TORQUE
STRENGTH
.................................................................
52
2.9.3
TYPES
OF
MOTORS
.............................................................................
53
2.10
WEAR
.............................................................................................................
54
2.11
EXTRUDER
SIZE
AND
INSTRUMENTATION
.........................................................
55
2.11.1
EXTRUDER
SIZE
.................................................................................
55
2.11.2
INSTRUMENTATION
.............................................................................
55
2.12
RUBBING
MECHANISMS
OF
SOLID
POLYMER
ON
METAL
SURFACE
......................
56
2.13
RELATIONSHIPS
BETWEEN
SCREW
CHANNEL
GEOMETRIES
................................
58
2.14
VARIABLES
CONTROLLING
POLYMER
EXTRUSION
...............................................
59
3
FUNDAMENTALS
OF
POLYMERS
...........................................................
63
3.1
INTRODUCTION
TO
POLYMERS
............................................................................
63
3.1.1
POLYMER
MOLECULES
.........................................................................
63
3.1.2
POLYMERIZATION
REACTION
AND
COMMON
POLYMERS
........................
65
3.1.2.1
CHAIN
OR
ADDITION
POLYMERIZATION
................................
65
3.1.2.2
STEP
OR
CONDENSATION
POLYMERIZATION
..........................
66
3.1.3
CLASSIFICATION
OF
POLYMERS
.............................................................
68
3.1.3.1
THERMOPLASTIC
AND
THERMOSET
......................................
68
3.1.3.2 HOMOPOLYMER,
COPOLYMER,
BLOCK
COPOLYMER,
AND
GRAFT
COPOLYMERS
...........................................................
69
3.1.3.3
LINEAR
POLYMER,
BRANCHED
POLYMER,
AND
CROSSLINKED
POLYMER
.....................................................
69
3.1.3.4
AMORPHOUS
POLYMER
AND
CRYSTALLINE
POLYMER
............
71
3.1.3.5
CHEMICAL
NAMES
.............................................................
71
3.2
AVERAGE
MOLECULAR
WEIGHTS
AND
MOLECULAR
WEIGHT
DISTRIBUTION
..........
72
3.2.1
AVERAGE
MOLECULAR
WEIGHTS
.........................................................
72
3.2.1.1
NUMBER
AVERAGE
MOLECULAR
WEIGHT,
M
N
........................
72
3.2.1.2
WEIGHT
AVERAGE
MOLECULAR
WEIGHT,
M
W
........................
73
3.2.1.3
Z-AVERAGE
MOLECULAR
WEIGHT,
M
Z
..................................
73
3.2.1.4
VISCOSITY
AVERAGE
MOLECULAR
WEIGHT,
M
V
......................
73
3.2.2
MOLECULAR
WEIGHT
DISTRIBUTION
......................................................
74
3.2.3
MEASUREMENTS
OF
AVERAGE
MOLECULAR
WEIGHTS
............................
75
3.2.3.1
ABSOLUTE
METHODS
...........................................................
76
3.2.3.2 RELATIVE
METHODS
...........................................................
79
3.3
MOLECULAR
STRUCTURE
AND
MORPHOLOGY
OF
POLYMER
SOLID
..........................
86
3.3.1
MOLECULAR
STRUCTURE
.......................................................................
86
3.3.1.1
CONFORMATION
.................................................................
86
3.3.1.2
CONFIGURATION
.................................................................
87
3.3.2
MORPHOLOGY
OF
POLYMER
SOLID
.......................................................
89
3.3.2.1
MOLECULAR
ORIENTATION
...................................................
89
3.3.2.2
AMORPHOUS
POLYMERS
...................................................
90
3.3.2.3
CRYSTALLINE
POLYMERS
.....................................................
91
3.3.3 GLASS
TRANSITION
AND
MELTING
.......................................................
100
3.3.4
PHASE
SEPARATION
IN
BLENDS,
BLOCK
COPOLYMERS,
AND
GRAFT
COPOLYMERS
...................................................................
100
3.4
EFFECTS
OF
PROCESSING
VARIABLES
ON
MORPHOLOGY
......................................
102
3.4.1
STRESS
AND
STRAIN
...........................................................................
102
3.4.2
TEMPERATURE
...................................................................................
103
3.4.2.1
THERMODYNAMICS
OF
CRYSTALLIZATION
..............................
104
3.4.2.2
NUCLEATION
AND
GROWTH
OF
NUCLEUS
................................
105
3.4.2.3
CRYSTALLIZATION
RATE
AND
CRYSTALLINITY
..........................
106
3.4.2.4
LAMELLAR
THICKNESS
AS
A
FUNCTION
OF
CRYSTALLIZATION
TEMPERATURE
...................................................................
107
3.4.2.5
MELTING
POINT
OF
LAMELLA
AS
A
FUNCTION
OF
THICKNESS
..
109
3.4.2.6
COOLING
RATE
...................................................................
109
3.4.3
PRESSURE
.........................................................................................
110
3.4.4
ANNEALING
.......................................................................................
ILL
3.5
MELT
RHEOLOGY
.............................................................................................
ILL
3.5.1
TYPES
OF
FLUIDS
................................................................................
112
3.5.1.1
VISCOUS
FLUID,
VISCOELASTIC
FLUID,
AND
BINGHAM
FLUID
112
3.5.1.2
TYPES
OF
VISCOUS
FLUIDS
..................................................
115
3.5.1.3
BEHAVIOR
OF
VISCOELASTIC
FLUIDS
......................................
116
3.5.2
RHEOLOGICAL
PROPERTIES
OF
POLYMER
MELTS
......................................
117
3.5.2.1
GENERAL
RHEOLOGICAL
BEHAVIOR
OF
POLYMER
MELTS
..........
117
3.5.2.2 MELT
VISCOSITY
AS
A
FUNCTION
OF
SHEAR
RATE
OR
SHEAR
STRESS
...................................................................
118
3.5.2.3
MELT
VISCOSITY
AS
A
FUNCTION
OF
TEMPERATURE
..............
125
3.5.2.4
MELT
VISCOSITY
AS
A
FUNCTION
OF
BOTH
TEMPERATURE
AND
SHEAR
STRESS
OR
SHEAR
RATE
......................................
129
3.5.2.5
MELT
VISCOSITY
AS
A
FUNCTION
OF
PRESSURE
.....................
131
3.5.3
MEASUREMENT
OF
MELT
RHEOLOGICAL
PROPERTIES
..............................
132
3.5.3.1
CAPILLARY
RHEOMETER
.....................................................
133
3.5.3.2
CONE-AND-PLATE
RHEOMETER
............................................
139
3.5.4
MELT
FLOW
INDEX
.............................................................................
145
3.5.5
EXTENSIONAL
FLOW
AND
TENSILE
VISCOSITY
........................................
149
3.5.6
FLOW
INSTABILITY
.............................................................................
150
3.5.6.1
FLOW
INSTABILITY
IN
SHEAR
FLOW
..................................
151
3.5.6.2
FLOW
INSTABILITY
IN
EXTENSIONAL
FLOW
.............................
156
3.5.7
FLOW
THROUGH
SIMPLE
DIES
.............................................................
157
3.5.7.1
CIRCULAR
TUBE
................................................................
157
3.57.2
SLIT
...................................................................................
158
3.5.8
ELASTIC
MEMORY
EFFECT
ON
EXTRUDATE
SHAPE
..................................
165
3.5.9 EFFECTS
OF
MOLECULAR
PARAMETERS
ON
MELT
RHEOLOGICAL
AND
PHYSICAL
PROPERTIES
.......................................................................
166
3.5.9.1
MOLECULAR
WEIGHT
(MW)
...............................................
166
3.5.9.2
MOLECULAR
WEIGHT
DISTRIBUTION
(MWD)
........................
167
3.5.9.3
MOLECULAR
STRUCTURE
.......................................................
168
3.5.10
RELATIONSHIPS
BETWEEN
MELT
RHEOLOGICAL
PROPERTIES
AND
PROCESSABILITY
IN
EXTRUSION
...........................................................
170
3.5.10.1
VISCOSITY
.........................................................................
170
3.5.10.2
SHEAR
SENSITIVITY
OF
VISCOSITY
......................................
170
3.5.10.3
TEMPERATURE
SENSITIVITY
OF
VISCOSITY
............................
170
3.5.10.4
ELASTICITY
.........................................................................
171
3.6
OTHER
POLYMER
PROPERTIES
AND
FEED
CHARACTERISTICS
RELEVANT
TO
EXTRUSION
.....................................................................................................
171
3.6.1
THERMODYNAMIC
PROPERTIES:
SPECIFIC
HEAT,
ENTHALPY,
AND
HEAT
OF
FUSION
.........................................................................
171
3.6.2
FLOW
TEMPERATURE
AND
MECHANICAL
MELTING
................................
174
3.6.3
THERMO/MECHANICAL
STABILITY
.......................................................
175
3.6.4
EXTERNAL
FRICTION
AND
INTERNAL
FRICTION
........................................
176
3.6.4.1
EXTERNAL
FRICTION
...........................................................
176
3.6.4.2
INTERNAL
FRICTION
.............................................................
178
3.6.5
BULK
DENSITY
AND
COMPRESSIBILITY
OF
FEED
..................................
178
3.6.6
MELT
DENSITY
...................................................................................
180
4
THEORIES
OF
SINGLE-SCREW
EXTRUSION
.............................................
185
4.1
THREE
BASIC
FUNCTIONS
OF
A
SINGLE-SCREW
EXTRUDER
..................................
185
4.2
SOLID
CONVEYING
MODELS
.............................................................................
187
4.2.1
FRICTIONAL
FORCE
AND
VISCOUS
SHEAR
FORCE
....................................
187
4.2.2
OUTPUT
RATE
IN
TERMS
OF
THE
SOLID
CONVEYING
ANGLE
..................
190
4.2.3
ANALYSIS
OF
THE
SOLID
CONVEYING
ANGLE
........................................
195
4.2.4
SOLID
CONVEYING
MODEL
BASED
ON
VISCOSITY
..................................
198
4.2.5
SOLID
CONVEYING
MODEL
BASED
ON
FRICTION
....................................
212
4.2.5.1
ISOTROPIC
PRESSURE
IN
THE
SOLID
BED
..............................
212
4.2.5.2
ANISOTROPIC
PRESSURE
IN
SOLID
BED
................................
219
4.2.6
ELASTIC
SOLID
BED
.............................................................................
220
4.3
MELTING
MODELS
...........................................................................................
221
4.3.1
DISSIPATIVE
MELTING
MODELS
............................................................
221
4.3.1.1
NUMERICAL
MELTING
MODELS
.............................................
225
4.3.1.2
ANALYTICAL
MELTING
MODEL
..............................................
233
4.3.1.3
SOLID
BED
PROFILE
AND
MELTING
CAPACITY
........................
271
4.3.2
CONDUCTION
MELTING
MODEL
...........................................................
273
4.4
METERING
MODELS
.........................................................................................
279
4.4.1
ISOTHERMAL
NEWTONIAN
FLUID
MODEL
..............................................
282
4.4.1.1
ONE-DIMENSIONAL
FLOW
BETWEEN
PARALLEL
PLATES
..........
283
4.4.1.2
TWO-DIMENSIONAL
FLOW
THROUGH
RECTANGULAR
CHANNEL
289
4.4.1.3
FLOW
THROUGH
HELICAL
CHANNEL
......................................
292
4.4.2
ISOTHERMAL
POWER-LAW
FLUID
MODEL
..............................................
293
4.5
EFFECTS
OF
FLIGHT
CLEARANCE
.........................................................................
299
4.5.1
SOLID
CONVEYING
MODELS
...............................................................
300
4.5.2
MELTING
MODELS
...............................................................................
300
4.5.3
METERING
MODELS
...........................................................................
301
4.6
COMPREHENSIVE
EXTRUSION
MODEL
.............................................................
302
4.6.1
COMPUTER
SIMULATION
.....................................................................
302
4.6.2
OUTPUT
RATE
.....................................................................................
303
4.6.3
MOTOR
POWER
...................................................................................
303
5
SCREW
DESIGN,
HIGH
PERFORMANCE
SCREWS,
AND
SCALE-UP
.........
309
5.1
SCREW
DESIGN
.............................................................................................
309
5.1.1
GENERAL
SCREW
DESIGN
GUIDELINES
...............................................
309
5.1.2
SCIENTIFIC
SCREW
DESIGN
METHOD
...................................................
311
5.2
HIGH
PERFORMANCE
SCREWS
.........................................................................
321
5.2.1
FLOW
RESTRICTION/MIXING
TYPE
......................................................
322
5.2.2
BARRIER-TO-MELT
TYPE
.....................................................................
332
5.2.3
BARRIER
BETWEEN
SOLID
BED
AND
MELT
POOL
TYPE
............................
334
5.2.4
SOLID/MELT
MIXING
TYPE
................................................................
341
5.3
MOTOR
POWER
AS
A
FUNCTION
OF
SCREW
SPEED
AND
SIZE
..............................
343
5.4
MELT
TEMPERATURE
AS
A
FUNCTION
OF
SCREW
SPEED
AND
SIZE
....................
347
5.5
SCALE-UP
METHODS
.......................................................................................
352
5.5.1
COMMON
SCALE-UP
METHOD
...........................................................
353
5.5.2
BALANCED
SCALE-UP
METHOD
BASED
ON
MELTING
CAPACITY
..............
356
5.5.3
SCALE-UP
METHOD
FOR
HEAT
OR
SHEAR
SENSITIVE
POLYMERS
............
362
6
GEAR
PUMP,
STATIC
MIXER,
AND
DYNAMIC
MIXER
...........................
365
6.1
GEAR
PUMP
.................................................................................................
365
6.2
STATIC
MIXER
.................................................................................................
367
6.3
DYNAMIC
MIXER
...........................................................................................
369
7
DIE
DESIGNS
......................................................................................
373
7.1
INTRODUCTION
...............................................................................................
373
7.2
AN
ANALYTICAL
MODEL
FOR
COAT-HANGER
DIES
..............................................
374
7.2.1
DIE
PRESSURE
...................................................................................
378
7.2.2
MANIFOLD
INLET
SIZE
.........................................................................
379
7.2.3 MANIFOLD
PROFILE
.............................................................................
381
7.3
FILM
AND
SHEET
DIES
...................................................................................
383
7.3.1
INTRODUCTION
...................................................................................
383
7.3.2
DIE
TYPES
.......................................................................................
383
7.3.3
DIE
BODY
MATERIALS
.........................................................................
385
7.3.4
MANIFOLD
DESIGNS
...........................................................................
386
7.3.5
DECKLING
SYSTEMS
...........................................................................
387
7.3.6
TEMPERATURE
CONTROL
.....................................................................
389
7.3.7
ADJUSTMENT
SYSTEMS
.....................................................................
389
7.3.8
DIE
OPERATING
INFORMATION
...........................................................
393
7.3.9
SAFETY
...............................................................................................
394
7.4
COEXTRUSION
DIES
FOR
MULTILAYER
FLAT
FILMS
AND
SHEETS
...........................
395
7.4.1
OVERVIEW
.........................................................................................
395
7.4.2
INTRODUCTION
...................................................................................
396
7.4.3 OVERVIEW
OF
GENERAL
COEXTRUSION
EQUIPMENT
............................
398
7.4.3.1
ADAPTER
...........................................................................
399
7.4.3.2
FEEDBLOCK
.......................................................................
402
7.4.3.3
DIE
...................................................................................
403
7.4.4
FEEDBLOCK
DESIGNS
.........................................................................
404
7.4.5
COEXTRUSION
SYSTEMS
FOR
FLAT
FILMS
AND
SHEETS
..........................
407
7.4.6 LAYER
INSTABILITIES
OR
MELT
DISTURBANCES
......................................
407
7.4.7
SUMMARY
.......................................................................................
411
8
VISCOELASTIC
EFFECTS
IN
MELT
FLOW
.................................................
413
8.1
INTRODUCTION
................................................................................................
413
8.2
COEXTRUSION
.................................................................................................
413
8.3
VISCOUS
FLOW
EFFECTS
.................................................................................
415
8.4
ELASTICALLY
DRIVEN
FLOWS
...........................................................................
418
8.4.1
BACKGROUND
AND
THEORY
...............................................................
418
8.4.2
NUMERICAL
SIMULATIONS
.................................................................
419
8.4.3
EXPERIMENTAL
PROCEDURES
.............................................................
422
8.4.4
COMPARISON
OF
EXPERIMENTAL
AND
NUMERICAL
RESULTS
................
424
8.5
VISCOELASTIC
FLOWS
....................................................................................
433
9
SPECIAL
SINGLE-SCREW
EXTRUDER
WITH
CHANNELS
ON
THE
BARREL
...
437
9.1
INTRODUCTION
...............................................................................................
437
9.2
HELIBAR
OR
EXTRUDER
WITH
CHANNELED
BARREL
........................................
438
9.3
PERFORMANCE
OF
AN
EXTRUDER
WITH
CHANNELED
BARREL
..............................
440
10
PHYSICAL
DESCRIPTION
OF
TWIN-SCREW
EXTRUDERS
...........................
449
10.1
INTRODUCTION
...............................................................................................
449
10.1.1
METERED
FEEDING
FOR
INTERMESHING
TWIN-SCREW
EXTRUDERS
........
451
10.2
INTERMESHING
CO-ROTATING
TWIN-SCREW
EXTRUDER
....................................
452
10.2.1
CONVEYING
ELEMENTS
.....................................................................
454
10.2.2
KNEADING
BLOCKS
...........................................................................
455
10.2.3
MIXING
BLOCKS
.................................................................................
457
10.2.4
SEALING
BLOCKS
...............................................................................
457
10.2.5
SUMMARY
OF
THE
FUNCTIONS
AND
THE
DESIGN
PARAMETERS
OF
VARIOUS
SCREW
ELEMENTS
OF
INTERMESHING
CO-ROTATING
TWIN-SCREW
EXTRUDERS
...................................................................
458
10.3
INTERMESHING
COUNTER-ROTATING
TWIN-SCREW
EXTRUDER
............................
459
10.4
SCALE-UP
OF
INTERMESHING
TWIN-SCREW
EXTRUDERS
....................................
461
10.5
NON-INTERMESHING
COUNTER-ROTATING
TWIN-SCREW
EXTRUDER
....................
462
APPENDIX:
UNIVERSAL
CONSTANTS,
UNIT
CONVERSION
FACTORS,
AND
PREFIXES
............................................................................................
465
NOMENCLATURE
........................................................................................
467
AUTHOR
INDEX
............................................................................................
475
SUBJECT
INDEX
..........................................................................................
481
|
any_adam_object | 1 |
author | Chung, Chan I. 1939- |
author_GND | (DE-588)122131738 |
author_facet | Chung, Chan I. 1939- |
author_role | aut |
author_sort | Chung, Chan I. 1939- |
author_variant | c i c ci cic |
building | Verbundindex |
bvnumber | BV046179058 |
classification_rvk | ZM 8165 |
classification_tum | CIT 740f |
ctrlnum | (OCoLC)1126561000 (DE-599)DNB1194486045 |
discipline | Chemie / Pharmazie Werkstoffwissenschaften Chemie-Ingenieurwesen Werkstoffwissenschaften / Fertigungstechnik |
edition | 3rd edition |
format | Book |
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id | DE-604.BV046179058 |
illustrated | Illustrated |
indexdate | 2024-07-10T08:37:26Z |
institution | BVB |
institution_GND | (DE-588)1064064051 |
isbn | 9781569906095 1569906092 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-031558625 |
oclc_num | 1126561000 |
open_access_boolean | |
owner | DE-703 DE-91G DE-BY-TUM DE-210 DE-12 DE-1050 DE-29T |
owner_facet | DE-703 DE-91G DE-BY-TUM DE-210 DE-12 DE-1050 DE-29T |
physical | XXIV, 485 Seiten Illustrationen, Diagramme 25 cm |
publishDate | 2019 |
publishDateSearch | 2019 |
publishDateSort | 2019 |
publisher | Hanser Publishers Hanser Publications |
record_format | marc |
spelling | Chung, Chan I. 1939- Verfasser (DE-588)122131738 aut Extrusion of polymers theory and practice Chan I. Chung 3rd edition Munich Hanser Publishers [2019] Cincinnati Hanser Publications © 2019 XXIV, 485 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Kunststoff (DE-588)4033676-1 gnd rswk-swf Extrudieren (DE-588)4071089-0 gnd rswk-swf coextrusion extensional flow extruder Extrudieren extrusion extrusion die Kunststoffe Kunststoffverarbeitung melt flow plastics plastics processing polymers rheology screw design single screw solid conveying twin screw viscoelastic PLAS2019 Extrudieren (DE-588)4071089-0 s DE-604 Kunststoff (DE-588)4033676-1 s Hanser Publications (DE-588)1064064051 pbl Erscheint auch als Online-Ausgabe 978-1-56990-738-2 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031558625&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Chung, Chan I. 1939- Extrusion of polymers theory and practice Kunststoff (DE-588)4033676-1 gnd Extrudieren (DE-588)4071089-0 gnd |
subject_GND | (DE-588)4033676-1 (DE-588)4071089-0 |
title | Extrusion of polymers theory and practice |
title_auth | Extrusion of polymers theory and practice |
title_exact_search | Extrusion of polymers theory and practice |
title_full | Extrusion of polymers theory and practice Chan I. Chung |
title_fullStr | Extrusion of polymers theory and practice Chan I. Chung |
title_full_unstemmed | Extrusion of polymers theory and practice Chan I. Chung |
title_short | Extrusion of polymers |
title_sort | extrusion of polymers theory and practice |
title_sub | theory and practice |
topic | Kunststoff (DE-588)4033676-1 gnd Extrudieren (DE-588)4071089-0 gnd |
topic_facet | Kunststoff Extrudieren |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031558625&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT chungchani extrusionofpolymerstheoryandpractice AT hanserpublications extrusionofpolymerstheoryandpractice |