Industrial polymers:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Munich [u.a.]
Hanser
2008
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XI, 180 S. zahl. Ill. 24 cm |
| ISBN: | 9781569904091 9783446411197 156990409X |
Internformat
MARC
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| 650 | 4 | |a Polymers |x Industrial applications |v Handbooks, manuals, etc | |
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Datensatz im Suchindex
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| adam_text | Contents
Preface VII
1 Introduction to Industrial Polymers 1
1.1 Beginning of Industrial Polymers 2
1.2 Polymer Families 4
1.3 Thermoplastic Polymers 5
1.3.1 Classification of Polymers by Performance 5
1.3.2 Molecular Structure of Industrial Polymers 7
1.4 Manufacturing of Industrial Polymers 8
1.5 Compounding the Industrial Polymers 12
1.6 Additives 13
1.7 Fillers and Reinforcements 14
1.8 Impact Modifiers 15
1.9 Colorants 15
2 Polymeric Materials 17
2.1 Acrylonitrile-Butadiene-Styrene Copolymer (ABS) 17
2.1.1 Advantages of ABS 18
2.1.2 Disadvantages and Limitations of ABS 19
2.1.3 Typical Applications of ABS 19
2.2 Acetal (POM, Polyacetal) 20
2.2.1 Advantages of Acetal 23
2.2.2 Disadvantages and Limitations of Acetal 23
2.2.3 Typical Applications of Acetal 23
2.3 Polymethyl Metacrylate (Acrylic, PMMA) 25
2.3.1 Advantages of Acrylic 26
2.3.2 Disadvantages and Limitations of Acrylic 26
2.3.3 Typical Applications of Acrylic 27
2.4 High Temperature Nylon (HTN) 27
2.4.1 Advantages of HTN 28
2.4.2 Disadvantages and Limitations of HTN 29
2.4.3 Typical Applications of HTN 29
2.5 Ionomer Polymers 30
2.5.1 Advantages of Ionomers 31
2.5.2 Disadvantages and Limitations of Ionomers 31
2.5.3 Typical Applications of Ionomers 32
2.6 Liquid Crystal Polymer (LCP) 32
2.6.1 Advantages of LCP 33
2.6.2 Disadvantages and Limitations of LCP 33
2.6.3 Typical Applications of LCP 34
2.7 Polyamide (PA, Nylon) 34
2.7.1 Advantages of Nylon 37
2.7.2 Disadvantages and Limitations of Nylon 37
2.7.3 Typical Applications of Nylon 38
2.8 Polyethenmide (PEI) 40
2.8.1 Advantages of PEI ,,
2.8.2 Disadvantages and Limitations of PEI 41
2.8.3 Typical Applications of PEI 4?
2.9 Polyarylate (PAR) 42
2.9.1 Advantages of PAR
2.9.2 Disadvantages and Limitations of PAR 44
2.9.3 Typical Applications of PAR .,-
2.10 Polyetherether Ketone (PEEK) ,[[ 4
2.10.1 Advantages of PEEK
2.10.2 Disadvantages and Limitations of PEEK 47
2.10.3 Typical Applications of PEEK
2.11 Polycarbonate (PC) 4/
2.11.1 Advantages of PC 47
2.11.2 Disadvantages and Limitations of PC ^
2.11.3 Typical Applications of PC
2.12 Modified Polyphenylene Oxide (PPO) 50
2.12.1 Advantages of PPO 51
2.12.2 Disadvantages and Limitations of PPO 52
2.12.3 Typical Applications of PPO 53
2.13 Polybutylene Terephthalate (PBT) 53
2.13.1 Advantages of PBT 54
2.13.2 Disadvantages and Limitations of PBT 55
2.13.3 Typical Applications of PBT 55
2.14 Polyethylene Terephthalate (PET) ..[ 55
2.14.1 Advantages of PET 56
2.14.2 Disadvantages and Limitations of PET . 58
2.14.3 Typical Applications of PET 59
2.15 Polyethylene (PE) 59
2.15.1 Advantages of PE 59
2.15.2 D1Sadvantages and Limitations of PE .. 61
2.15.3 Typical Applications of PE 61
2.16 Ethylene Vinyl Acetate (EVA) 62
2.17 Ethylene N-Butyl Acrylate (ENBA) . 63
2.18 Ethylene Methyl Acrylate (EMA).. 63
2.19 Ethylene Ethyl Acrylate (EEA) 64
2.20 Ultrahigh Molecular Weight Polyethylene (UHMWPE) 64
2.21 Metallocene Polyethylene (MPE) 64
2.22 Polytetrafluoroethylene (PTFE) 64
2.22.1 Advantages of PTFE 65
2.22.2 Disadvantages and Limitations of PTFE 68
2.22.3 Typical Applications of PTFE 68
2.23 Polyphenylene Sulfide (PPS) 69
2.23.1 Advantages of PPS 70
2.23.2 Disadvantages and Limitations of PPS 71
2.23.3 Typical Applications of PPS 71
2.24 Polypropylene (PP) 72
2.24.1 Advantages of PP 72
74
2.24.2 Disadvantages and Limitations of PP 74
2.24.3 Typical Applications of PP 75
2.25 Polystyrene (PS) 76
2.25.1 Advantages of PS 77
2.25.2 Disadvantages and Limitations of PS 77
2.25.3 Typical Applications of PS 78
2.26 Polysulfone (PSU) 78
2.26.1 Advantages of PSU 80
2.26.2 Disadvantages and Limitations of PSU 80
2.26.3 Typical Applications of PSU 80
2.27 Polyvinyl Chloride (PVC) 81
2.27.1 Advantages of PVC 82
2.27.2 Disadvantages and Limitations of PVC 83
2.27.3 Typical Applications of PVC 83
2.28 Styrene Acrylomtrile (SAN) 84
2.28.1 Advantages of SAN 85
2.28.2 Disadvantages and Limitations of SAN 85
2.28.3 Typical Applications of SAN 85
2.28.4 Typical Applications for OSA and ASA 86
3 Thermoplastic Elastomers (TPE) 87
3.1 Advantages of TPE 87
3.2 Disadvantages of TPE 88
3.3 Thermoplastic Elastomer Families 89
3.4 Thermoplastic Polyurethane Elastomer (TPU) 90
3.4.1 Advantages of TPU 92
3.4.2 Disadvantages and Limitations of TPU 92
3.4.3 Typical Applications of TPU 93
3.5 Styremc Block Copolymer (SBS) 93
3.5.1 Advantages of SBS 95
3.5.2 Disadvantages and Limitation of SBS 95
3.5.3 Typical Applications of SBS 95
3.6 Polyolefin Thermoplastic Elastomer (TPO) 96
3.6.1 Advantages of TPO 98
3.6.2 Disadvantages and Limitations of TPO 99
3.6.3 Typical Applications of TPO 99
3.7 Thermoplastic Vulcanizate (TPV) 100
3.7.1 Advantages of TPV 102
3.7.2 Disadvantages and Limitations of TPV 102
3.7.3 Typical Applications of TPV 102
3.8 Melt Processible Rubber (MPR) 103
3.8.1 Advantages of MPR 105
3.8.2 Disadvantages and Limitations of MPR 105
3.8.3 Typical Applications of MPR 105
3.9 Block Copolyester Thermoplastic Elastomer 106
3.9.1 Advantages 109
3.9.2 Disadvantages and Limitations 110
3.9.3 Typical Applications 110
3.10 Polyamide Thermoplastic Elastomer l
3.10.1 Advantages 113
3.10.2 Disadvantages and Limitations
3.10.3 Typical Applications 114
4 Liquid Injection Molding Silicone (LIM®) 115
4.1 LIM» Silicone Processing 116
4.1.1 Liquid Components Feeding System H°
4.1.2 Injection Molding Machine Modifications 117
4.1.3 LIM® Mold Reqmrements 117
4.1.4 LIM® Mold Design Recommendations 118
4.2 Advantages of LIM® 118
4.3 Disadvantages and Limitations of LIM® 119
4.4 Typical Applications of LIM® 119
5 Industrial Thermoset Polymers 121
5.1 Polyester Alkyd (PAK) 123
5.1.1 Advantages of PAK 124
5.1.2 Disadvantages and Limitations of PAK 124
5.1.3 Typical Applications of PAK 124
5.2 Diallyl Phthalate/Isophthalate (DAP, DAIP) 125
5.2.1 Advantages of DAP 126
5.2.2 Disadvantages and Limitations of DAP 126
5.2.3 Typical Applications of DAP 127
5.3 Melamine Formaldehyde (MF) 127
5.3.1 Advantages of MF 128
5.3.2 Disadvantages and Limitations of MF 129
5.3.3 Typical Applications ofMF 129
5.4 Cellulose Ester 129
5.4.1 Advantages of Cellulose Ester 129
5.4.2 Disadvantages and Limitations of Cellulose Ester 130
5.4.3 Typical Applications of Cellulose Ester 130
5.5 Cyanate 131
5.5.1 Advantages of Cyanate 133
5.5.2 Disadvantages and Limitations of Cyanate .... 134
5.5.3 Typical Applications of Cyanate .... 134
5.6 Epoxy (EP) 234
5.6.1 Advantages of Epoxy 136
5.6.2 Disadvantages and Limitations of Epoxy 137
5.6.3 Typical Applications of Epoxy 137
5.7 Phenol Formaldehyde (Phenolk, PF) . ..137
5.7.1 Advantages of Phenolics 139
5.7.2 Disadvantages and Limitations of Phenolics 140
5.7.3 Typical Applications of Phenolics 140
5.8 Polybutadiene (PB) 141
5.8.1 Advantages of PB 14!
5.8.2 Disadvantages and Limitations ofPB 141
5.8.3 Typical Applications of PB 14j
5.9 Bismaleimide (BMI) 142
5.9.1 Advantages of BMI 143
5.9.2 Disadvantages and Limitations of BMI 143
5.9.3 Typical Applications of BMI 143
5.10 Unsaturated Polyester (UP) 143
5.10.1 Advantages of UP 146
5.10.2 Disadvantages and Limitations of UP 146
5.10.3 Typical Applications of UP 146
5.11 Polyimide (PI) 147
5.11.1 Advantages of PI 148
5.11.2 Disadvantages and Limitations of PI 148
5.11.3 Typical Applications of PI 149
5.12 Polyxylene 150
5.12.1 Advantages of Polyxylene 150
5.12.2 Disadvantages and Limitations of Polyxylene 150
5.12.3 Typical Applications of Polyxylene 150
5.13 Polyurethane (PUR) 151
5.13.1 Advantages of PUR 154
5.13.2 Disadvantages and Limitations of PUR 154
5.13.3 Typical Applications of PUR 155
5.14 Silicone (Si) 155
5.14.1 Advantages of Si 156
5.14.2 Disadvantages and Limitations of Si 156
5.14.3 Typical Applications of Si 157
5.15 Urethane Hybrid 158
5.15.1 Reaction Imection Molding (RIM) 159
5.15.2 SRIM Processing 159
5.15.3 Advantages of Urethane Hybrid 160
5.15.4 Disadvantages and Limitations of Urethane Hybrid 160
5.15.5 Typical Applications of Urethane Hybrid 160
5.16 Vinyl Ester (BPA) 161
5.16.1 Advantages of this Process 163
5.16.2 Advantages of Vinyl Ester 163
5.16.3 Disadvantages and Limitations of Vinyl Ester 164
5.16.5 Typical Applications of Vinyl Ester 164
Selected References 165
Appendix 167
Acronyms for Polymeric Materials 167
Common Acronyms 169
Process Acronyms 169
Reinforcement and Filier Acronyms 170
English and Metric Units, Conversion Guide 171
Subject Index 173
Aboutthe Author 179
|
| adam_txt |
Contents
Preface VII
1 Introduction to Industrial Polymers 1
1.1 Beginning of Industrial Polymers 2
1.2 Polymer Families 4
1.3 Thermoplastic Polymers 5
1.3.1 Classification of Polymers by Performance 5
1.3.2 Molecular Structure of Industrial Polymers 7
1.4 Manufacturing of Industrial Polymers 8
1.5 Compounding the Industrial Polymers 12
1.6 Additives 13
1.7 Fillers and Reinforcements 14
1.8 Impact Modifiers 15
1.9 Colorants 15
2 Polymeric Materials 17
2.1 Acrylonitrile-Butadiene-Styrene Copolymer (ABS) 17
2.1.1 Advantages of ABS 18
2.1.2 Disadvantages and Limitations of ABS 19
2.1.3 Typical Applications of ABS 19
2.2 Acetal (POM, Polyacetal) 20
2.2.1 Advantages of Acetal 23
2.2.2 Disadvantages and Limitations of Acetal 23
2.2.3 Typical Applications of Acetal 23
2.3 Polymethyl Metacrylate (Acrylic, PMMA) 25
2.3.1 Advantages of Acrylic 26
2.3.2 Disadvantages and Limitations of Acrylic 26
2.3.3 Typical Applications of Acrylic 27
2.4 High Temperature Nylon (HTN) 27
2.4.1 Advantages of HTN 28
2.4.2 Disadvantages and Limitations of HTN 29
2.4.3 Typical Applications of HTN 29
2.5 Ionomer Polymers 30
2.5.1 Advantages of Ionomers 31
2.5.2 Disadvantages and Limitations of Ionomers 31
2.5.3 Typical Applications of Ionomers 32
2.6 Liquid Crystal Polymer (LCP) 32
2.6.1 Advantages of LCP 33
2.6.2 Disadvantages and Limitations of LCP 33
2.6.3 Typical Applications of LCP 34
2.7 Polyamide (PA, Nylon) 34
2.7.1 Advantages of Nylon 37
2.7.2 Disadvantages and Limitations of Nylon 37
2.7.3 Typical Applications of Nylon 38
2.8 Polyethenmide (PEI) 40
2.8.1 Advantages of PEI ,,
2.8.2 Disadvantages and Limitations of PEI " 41
2.8.3 Typical Applications of PEI 4?
2.9 Polyarylate (PAR) 42
2.9.1 Advantages of PAR
2.9.2 Disadvantages and Limitations of PAR 44
2.9.3 Typical Applications of PAR .,-
2.10 Polyetherether Ketone (PEEK) ,[[ 4
2.10.1 Advantages of PEEK "
2.10.2 Disadvantages and Limitations of PEEK 47
2.10.3 Typical Applications of PEEK
2.11 Polycarbonate (PC) 4/
2.11.1 Advantages of PC 47
2.11.2 Disadvantages and Limitations of PC ^
2.11.3 Typical Applications of PC
2.12 Modified Polyphenylene Oxide (PPO) 50
2.12.1 Advantages of PPO 51
2.12.2 Disadvantages and Limitations of PPO 52
2.12.3 Typical Applications of PPO 53
2.13 Polybutylene Terephthalate (PBT) 53
2.13.1 Advantages of PBT 54
2.13.2 Disadvantages and Limitations of PBT ' 55
2.13.3 Typical Applications of PBT 55
2.14 Polyethylene Terephthalate (PET) .[ 55
2.14.1 Advantages of PET 56
2.14.2 Disadvantages and Limitations of PET . 58
2.14.3 Typical Applications of PET 59
2.15 Polyethylene (PE) 59
2.15.1 Advantages of PE 59
2.15.2 D1Sadvantages and Limitations of PE .' 61
2.15.3 Typical Applications of PE 61
2.16 Ethylene Vinyl Acetate (EVA) 62
2.17 Ethylene N-Butyl Acrylate (ENBA)'. '' 63
2.18 Ethylene Methyl Acrylate (EMA). 63
2.19 Ethylene Ethyl Acrylate (EEA) 64
2.20 Ultrahigh Molecular Weight Polyethylene (UHMWPE) 64
2.21 Metallocene Polyethylene (MPE) 64
2.22 Polytetrafluoroethylene (PTFE) 64
2.22.1 Advantages of PTFE \\ 65
2.22.2 Disadvantages and Limitations of PTFE 68
2.22.3 Typical Applications of PTFE 68
2.23 Polyphenylene Sulfide (PPS) 69
2.23.1 Advantages of PPS 70
2.23.2 Disadvantages and Limitations of PPS 71
2.23.3 Typical Applications of PPS 71
2.24 Polypropylene (PP) 72
2.24.1 Advantages of PP 72
74
2.24.2 Disadvantages and Limitations of PP 74
2.24.3 Typical Applications of PP 75
2.25 Polystyrene (PS) 76
2.25.1 Advantages of PS 77
2.25.2 Disadvantages and Limitations of PS 77
2.25.3 Typical Applications of PS 78
2.26 Polysulfone (PSU) 78
2.26.1 Advantages of PSU 80
2.26.2 Disadvantages and Limitations of PSU 80
2.26.3 Typical Applications of PSU 80
2.27 Polyvinyl Chloride (PVC) 81
2.27.1 Advantages of PVC 82
2.27.2 Disadvantages and Limitations of PVC 83
2.27.3 Typical Applications of PVC 83
2.28 Styrene Acrylomtrile (SAN) 84
2.28.1 Advantages of SAN 85
2.28.2 Disadvantages and Limitations of SAN 85
2.28.3 Typical Applications of SAN 85
2.28.4 Typical Applications for OSA and ASA 86
3 Thermoplastic Elastomers (TPE) 87
3.1 Advantages of TPE 87
3.2 Disadvantages of TPE 88
3.3 Thermoplastic Elastomer Families 89
3.4 Thermoplastic Polyurethane Elastomer (TPU) 90
3.4.1 Advantages of TPU 92
3.4.2 Disadvantages and Limitations of TPU 92
3.4.3 Typical Applications of TPU 93
3.5 Styremc Block Copolymer (SBS) 93
3.5.1 Advantages of SBS 95
3.5.2 Disadvantages and Limitation of SBS 95
3.5.3 Typical Applications of SBS 95
3.6 Polyolefin Thermoplastic Elastomer (TPO) 96
3.6.1 Advantages of TPO 98
3.6.2 Disadvantages and Limitations of TPO 99
3.6.3 Typical Applications of TPO 99
3.7 Thermoplastic Vulcanizate (TPV) 100
3.7.1 Advantages of TPV 102
3.7.2 Disadvantages and Limitations of TPV 102
3.7.3 Typical Applications of TPV 102
3.8 Melt Processible Rubber (MPR) 103
3.8.1 Advantages of MPR 105
3.8.2 Disadvantages and Limitations of MPR 105
3.8.3 Typical Applications of MPR 105
3.9 Block Copolyester Thermoplastic Elastomer 106
3.9.1 Advantages 109
3.9.2 Disadvantages and Limitations 110
3.9.3 Typical Applications 110
3.10 Polyamide Thermoplastic Elastomer l
3.10.1 Advantages 113
3.10.2 Disadvantages and Limitations
3.10.3 Typical Applications 114
4 Liquid Injection Molding Silicone (LIM®) 115
4.1 LIM» Silicone Processing 116
4.1.1 Liquid Components Feeding System H°
4.1.2 Injection Molding Machine Modifications 117
4.1.3 LIM® Mold Reqmrements 117
4.1.4 LIM® Mold Design Recommendations 118
4.2 Advantages of LIM® 118
4.3 Disadvantages and Limitations of LIM® 119
4.4 Typical Applications of LIM® 119
5 Industrial Thermoset Polymers 121
5.1 Polyester Alkyd (PAK) 123
5.1.1 Advantages of PAK 124
5.1.2 Disadvantages and Limitations of PAK 124
5.1.3 Typical Applications of PAK 124
5.2 Diallyl Phthalate/Isophthalate (DAP, DAIP) 125
5.2.1 Advantages of DAP 126
5.2.2 Disadvantages and Limitations of DAP 126
5.2.3 Typical Applications of DAP 127
5.3 Melamine Formaldehyde (MF) 127
5.3.1 Advantages of MF 128
5.3.2 Disadvantages and Limitations of MF 129
5.3.3 Typical Applications ofMF 129
5.4 Cellulose Ester 129
5.4.1 Advantages of Cellulose Ester 129
5.4.2 Disadvantages and Limitations of Cellulose Ester 130
5.4.3 Typical Applications of Cellulose Ester 130
5.5 Cyanate 131
5.5.1 Advantages of Cyanate 133
5.5.2 Disadvantages and Limitations of Cyanate . 134
5.5.3 Typical Applications of Cyanate . 134
5.6 Epoxy (EP) 234
5.6.1 Advantages of Epoxy 136
5.6.2 Disadvantages and Limitations of Epoxy 137
5.6.3 Typical Applications of Epoxy 137
5.7 Phenol Formaldehyde (Phenolk, PF) . .137
5.7.1 Advantages of Phenolics 139
5.7.2 Disadvantages and Limitations of Phenolics 140
5.7.3 Typical Applications of Phenolics 140
5.8 Polybutadiene (PB) 141
5.8.1 Advantages of PB 14!
5.8.2 Disadvantages and Limitations ofPB 141
5.8.3 Typical Applications of PB 14j
5.9 Bismaleimide (BMI) 142
5.9.1 Advantages of BMI 143
5.9.2 Disadvantages and Limitations of BMI 143
5.9.3 Typical Applications of BMI 143
5.10 Unsaturated Polyester (UP) 143
5.10.1 Advantages of UP 146
5.10.2 Disadvantages and Limitations of UP 146
5.10.3 Typical Applications of UP 146
5.11 Polyimide (PI) 147
5.11.1 Advantages of PI 148
5.11.2 Disadvantages and Limitations of PI 148
5.11.3 Typical Applications of PI 149
5.12 Polyxylene 150
5.12.1 Advantages of Polyxylene 150
5.12.2 Disadvantages and Limitations of Polyxylene 150
5.12.3 Typical Applications of Polyxylene 150
5.13 Polyurethane (PUR) 151
5.13.1 Advantages of PUR 154
5.13.2 Disadvantages and Limitations of PUR 154
5.13.3 Typical Applications of PUR 155
5.14 Silicone (Si) 155
5.14.1 Advantages of Si 156
5.14.2 Disadvantages and Limitations of Si 156
5.14.3 Typical Applications of Si 157
5.15 Urethane Hybrid 158
5.15.1 Reaction Imection Molding (RIM) 159
5.15.2 SRIM Processing 159
5.15.3 Advantages of Urethane Hybrid 160
5.15.4 Disadvantages and Limitations of Urethane Hybrid 160
5.15.5 Typical Applications of Urethane Hybrid 160
5.16 Vinyl Ester (BPA) 161
5.16.1 Advantages of this Process 163
5.16.2 Advantages of Vinyl Ester 163
5.16.3 Disadvantages and Limitations of Vinyl Ester 164
5.16.5 Typical Applications of Vinyl Ester 164
Selected References 165
Appendix 167
Acronyms for Polymeric Materials 167
Common Acronyms 169
Process Acronyms 169
Reinforcement and Filier Acronyms 170
English and Metric Units, Conversion Guide 171
Subject Index 173
Aboutthe Author 179 |
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| dewey-sort | 3668.4 |
| dewey-tens | 660 - Chemical engineering |
| discipline | Chemie / Pharmazie Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| discipline_str_mv | Chemie / Pharmazie Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| format | Book |
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| genre | (DE-588)4148875-1 Datensammlung gnd-content |
| genre_facet | Datensammlung |
| id | DE-604.BV022887627 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:52:23Z |
| indexdate | 2024-07-09T21:07:47Z |
| institution | BVB |
| isbn | 9781569904091 9783446411197 156990409X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016092512 |
| oclc_num | 237024109 |
| open_access_boolean | |
| owner | DE-29T DE-91G DE-BY-TUM DE-12 DE-210 DE-1102 DE-703 DE-1051 DE-83 |
| owner_facet | DE-29T DE-91G DE-BY-TUM DE-12 DE-210 DE-1102 DE-703 DE-1051 DE-83 |
| physical | XI, 180 S. zahl. Ill. 24 cm |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Hanser |
| record_format | marc |
| spelling | Campo, E. Alfredo 1944- Verfasser (DE-588)131743589 aut Industrial polymers E. Alfredo Campo Munich [u.a.] Hanser 2008 XI, 180 S. zahl. Ill. 24 cm txt rdacontent n rdamedia nc rdacarrier Polymers Industrial applications Handbooks, manuals, etc Kunststoffgegenstand (DE-588)4304374-4 gnd rswk-swf Kunststoff (DE-588)4033676-1 gnd rswk-swf Verarbeitungseigenschaft (DE-588)4372382-2 gnd rswk-swf Werkstoffgerechtes Konstruieren (DE-588)4233887-6 gnd rswk-swf Kunststoffverarbeitung (DE-588)4114335-8 gnd rswk-swf (DE-588)4148875-1 Datensammlung gnd-content Kunststoff (DE-588)4033676-1 s DE-604 Kunststoffverarbeitung (DE-588)4114335-8 s Verarbeitungseigenschaft (DE-588)4372382-2 s Kunststoffgegenstand (DE-588)4304374-4 s Werkstoffgerechtes Konstruieren (DE-588)4233887-6 s HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016092512&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Campo, E. Alfredo 1944- Industrial polymers Polymers Industrial applications Handbooks, manuals, etc Kunststoffgegenstand (DE-588)4304374-4 gnd Kunststoff (DE-588)4033676-1 gnd Verarbeitungseigenschaft (DE-588)4372382-2 gnd Werkstoffgerechtes Konstruieren (DE-588)4233887-6 gnd Kunststoffverarbeitung (DE-588)4114335-8 gnd |
| subject_GND | (DE-588)4304374-4 (DE-588)4033676-1 (DE-588)4372382-2 (DE-588)4233887-6 (DE-588)4114335-8 (DE-588)4148875-1 |
| title | Industrial polymers |
| title_auth | Industrial polymers |
| title_exact_search | Industrial polymers |
| title_exact_search_txtP | Industrial polymers |
| title_full | Industrial polymers E. Alfredo Campo |
| title_fullStr | Industrial polymers E. Alfredo Campo |
| title_full_unstemmed | Industrial polymers E. Alfredo Campo |
| title_short | Industrial polymers |
| title_sort | industrial polymers |
| topic | Polymers Industrial applications Handbooks, manuals, etc Kunststoffgegenstand (DE-588)4304374-4 gnd Kunststoff (DE-588)4033676-1 gnd Verarbeitungseigenschaft (DE-588)4372382-2 gnd Werkstoffgerechtes Konstruieren (DE-588)4233887-6 gnd Kunststoffverarbeitung (DE-588)4114335-8 gnd |
| topic_facet | Polymers Industrial applications Handbooks, manuals, etc Kunststoffgegenstand Kunststoff Verarbeitungseigenschaft Werkstoffgerechtes Konstruieren Kunststoffverarbeitung Datensammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016092512&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT campoealfredo industrialpolymers |