New Polymeric Composite Materials.
This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials.
Autor*in: |
Inamuddin - 1980- [verfasserIn] |
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Format: |
E-Book |
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Sprache: |
Englisch |
Erschienen: |
Millersville, PA: Materials Research Forum LLC ; 2016 ©2016. |
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Schlagwörter: | |
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Formangabe: |
Electronic books |
Anmerkung: |
Description based on publisher supplied metadata and other sources |
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Umfang: |
1 online resource (402 pages) |
Reihe: |
Materials Research Foundations ; v.5 Materials Research Foundations Ser. ; v.5 |
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Links: | |
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ISBN: |
978-1-945291-09-8 |
Katalog-ID: |
873409744 |
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520 | |a This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. | ||
520 | |a Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. | ||
520 | |a 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers | ||
520 | |a 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation | ||
520 | |a 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation | ||
520 | |a 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction | ||
520 | |a 2.1.2.3 Covalent coupling | ||
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9781945291098 : 113.64 (NL),170.45 (UA),142.05 (3U),113.64 (1U) 978-1-945291-09-8 (DE-627)873409744 (DE-576)515318620 (DE-599)GBV873409744 (EBP)012020117 (EBL)4746648 (EBR)11300731 (EBC)EBC4746648 DE-627 ger DE-627 rda eng 620.19200000000001 Inamuddin 1980- verfasserin (DE-588)1020911425 (DE-627)691409676 (DE-576)358508614 aut New Polymeric Composite Materials. Millersville, PA Materials Research Forum LLC 2016 ©2016. 1 online resource (402 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Materials Research Foundations v.5 Materials Research Foundations Ser. v.5 Description based on publisher supplied metadata and other sources This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Polymeric composites ; Analysis Electronic books Electronic books 9781945291081 Erscheint auch als Druck-Ausgabe 9781945291081 http://gbv.eblib.com/patron/FullRecord.aspx?p=4746648 Verlag Volltext https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4746648 X:EBC Verlag lizenzpflichtig Volltext ZDB-30-PAD ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 BO 045F 620.19200000000001 370 01 4370 3976598267 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845464437 00 --%%-- --%%-- --%%-- n l01 30-01-21 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4746648 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4746648 370 01 4370 olr-dda ebc |
spelling |
9781945291098 : 113.64 (NL),170.45 (UA),142.05 (3U),113.64 (1U) 978-1-945291-09-8 (DE-627)873409744 (DE-576)515318620 (DE-599)GBV873409744 (EBP)012020117 (EBL)4746648 (EBR)11300731 (EBC)EBC4746648 DE-627 ger DE-627 rda eng 620.19200000000001 Inamuddin 1980- verfasserin (DE-588)1020911425 (DE-627)691409676 (DE-576)358508614 aut New Polymeric Composite Materials. Millersville, PA Materials Research Forum LLC 2016 ©2016. 1 online resource (402 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Materials Research Foundations v.5 Materials Research Foundations Ser. v.5 Description based on publisher supplied metadata and other sources This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Polymeric composites ; Analysis Electronic books Electronic books 9781945291081 Erscheint auch als Druck-Ausgabe 9781945291081 http://gbv.eblib.com/patron/FullRecord.aspx?p=4746648 Verlag Volltext https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4746648 X:EBC Verlag lizenzpflichtig Volltext ZDB-30-PAD ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 BO 045F 620.19200000000001 370 01 4370 3976598267 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845464437 00 --%%-- --%%-- --%%-- n l01 30-01-21 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4746648 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4746648 370 01 4370 olr-dda ebc |
allfields_unstemmed |
9781945291098 : 113.64 (NL),170.45 (UA),142.05 (3U),113.64 (1U) 978-1-945291-09-8 (DE-627)873409744 (DE-576)515318620 (DE-599)GBV873409744 (EBP)012020117 (EBL)4746648 (EBR)11300731 (EBC)EBC4746648 DE-627 ger DE-627 rda eng 620.19200000000001 Inamuddin 1980- verfasserin (DE-588)1020911425 (DE-627)691409676 (DE-576)358508614 aut New Polymeric Composite Materials. Millersville, PA Materials Research Forum LLC 2016 ©2016. 1 online resource (402 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Materials Research Foundations v.5 Materials Research Foundations Ser. v.5 Description based on publisher supplied metadata and other sources This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Polymeric composites ; Analysis Electronic books Electronic books 9781945291081 Erscheint auch als Druck-Ausgabe 9781945291081 http://gbv.eblib.com/patron/FullRecord.aspx?p=4746648 Verlag Volltext https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4746648 X:EBC Verlag lizenzpflichtig Volltext ZDB-30-PAD ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 BO 045F 620.19200000000001 370 01 4370 3976598267 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845464437 00 --%%-- --%%-- --%%-- n l01 30-01-21 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4746648 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4746648 370 01 4370 olr-dda ebc |
allfieldsGer |
9781945291098 : 113.64 (NL),170.45 (UA),142.05 (3U),113.64 (1U) 978-1-945291-09-8 (DE-627)873409744 (DE-576)515318620 (DE-599)GBV873409744 (EBP)012020117 (EBL)4746648 (EBR)11300731 (EBC)EBC4746648 DE-627 ger DE-627 rda eng 620.19200000000001 Inamuddin 1980- verfasserin (DE-588)1020911425 (DE-627)691409676 (DE-576)358508614 aut New Polymeric Composite Materials. Millersville, PA Materials Research Forum LLC 2016 ©2016. 1 online resource (402 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Materials Research Foundations v.5 Materials Research Foundations Ser. v.5 Description based on publisher supplied metadata and other sources This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Polymeric composites ; Analysis Electronic books Electronic books 9781945291081 Erscheint auch als Druck-Ausgabe 9781945291081 http://gbv.eblib.com/patron/FullRecord.aspx?p=4746648 Verlag Volltext https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4746648 X:EBC Verlag lizenzpflichtig Volltext ZDB-30-PAD ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 BO 045F 620.19200000000001 370 01 4370 3976598267 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845464437 00 --%%-- --%%-- --%%-- n l01 30-01-21 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4746648 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4746648 370 01 4370 olr-dda ebc |
allfieldsSound |
9781945291098 : 113.64 (NL),170.45 (UA),142.05 (3U),113.64 (1U) 978-1-945291-09-8 (DE-627)873409744 (DE-576)515318620 (DE-599)GBV873409744 (EBP)012020117 (EBL)4746648 (EBR)11300731 (EBC)EBC4746648 DE-627 ger DE-627 rda eng 620.19200000000001 Inamuddin 1980- verfasserin (DE-588)1020911425 (DE-627)691409676 (DE-576)358508614 aut New Polymeric Composite Materials. Millersville, PA Materials Research Forum LLC 2016 ©2016. 1 online resource (402 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Materials Research Foundations v.5 Materials Research Foundations Ser. v.5 Description based on publisher supplied metadata and other sources This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Polymeric composites ; Analysis Electronic books Electronic books 9781945291081 Erscheint auch als Druck-Ausgabe 9781945291081 http://gbv.eblib.com/patron/FullRecord.aspx?p=4746648 Verlag Volltext https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4746648 X:EBC Verlag lizenzpflichtig Volltext ZDB-30-PAD ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 BO 045F 620.19200000000001 370 01 4370 3976598267 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845464437 00 --%%-- --%%-- --%%-- n l01 30-01-21 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4746648 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4746648 370 01 4370 olr-dda ebc |
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abstract |
This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Description based on publisher supplied metadata and other sources |
abstractGer |
This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Description based on publisher supplied metadata and other sources |
abstract_unstemmed |
This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials. Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement. 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation 2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. Biofuel cell -- 2.1 Enzymatic biofuel cell -- 2.1.1 General enzyme classification -- 2.1.2 Direct and mediated electron transfer -- 2.1.2.1 Physical adsorption -- 2.1.2.2 Electrostatic attraction 2.1.2.3 Covalent coupling Description based on publisher supplied metadata and other sources |
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<?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>01000cam a22002652 4500</leader><controlfield tag="001">873409744</controlfield><controlfield tag="003">DE-627</controlfield><controlfield tag="005">20230427044612.0</controlfield><controlfield tag="007">cr uuu---uuuuu</controlfield><controlfield tag="008">181214s2016 xx |||||o 00| ||eng c</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9781945291098</subfield><subfield code="c">: 113.64 (NL),170.45 (UA),142.05 (3U),113.64 (1U)</subfield><subfield code="9">978-1-945291-09-8</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-627)873409744</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-576)515318620</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-599)GBV873409744</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(EBP)012020117</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(EBL)4746648</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(EBR)11300731</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(EBC)EBC4746648</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">DE-627</subfield><subfield code="b">ger</subfield><subfield code="c">DE-627</subfield><subfield code="e">rda</subfield></datafield><datafield tag="041" ind1=" " ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="082" ind1="0" ind2=" "><subfield code="a">620.19200000000001</subfield></datafield><datafield tag="100" ind1="0" ind2=" "><subfield code="a">Inamuddin</subfield><subfield code="d">1980-</subfield><subfield code="e">verfasserin</subfield><subfield code="0">(DE-588)1020911425</subfield><subfield code="0">(DE-627)691409676</subfield><subfield code="0">(DE-576)358508614</subfield><subfield code="4">aut</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">New Polymeric Composite Materials.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Millersville, PA</subfield><subfield code="b">Materials Research Forum LLC</subfield><subfield code="c">2016</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">©2016.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (402 pages)</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">Text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">Computermedien</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">Online-Ressource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="490" ind1="0" ind2=" "><subfield code="a">Materials Research Foundations</subfield><subfield code="v">v.5</subfield></datafield><datafield tag="490" ind1="0" ind2=" "><subfield code="a">Materials Research Foundations Ser.</subfield><subfield code="v">v.5</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">This book, 'New Polymeric Composite Materials - Environmental, Biomedical, Actuator and Fuel Cell Applications' brings together and broadly explores the latest developments and applications of polymeric and composite materials.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Intro -- 1 -- 1. Introduction -- 1.1 Historical Background of SMPs -- 2. Classification of Shape-Memory Polymers -- 2.1 Shape-Memory Polymers Based on Stimuli Responses -- 2.1.1 Temperature Sensitive Shape-Memory polymers -- 2.1.2 pH Sensitive Shape-Memory Polymers -- 2.1.3 Dual Stimuli-Responsive Shape-Memory Polymers -- 2.1.4 Other Stimuli-Responsive Shape-Memory Polymers -- 2.1.4.1 Light Induced Shape-Memory Polymers -- 2.1.4.2 Magnetically Induced Shape-Memory Polymers -- 2.1.4.4 Water/Moisture Activated Shape-Memory Polymers -- 2.1.4.5 Electricity Responsive Shape-Memory Polymers -- 2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers -- 4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation -- 4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">2.2 Shape-Memory Polymers Based on Functionality -- 2.2.1 One-Way SME and Two-Way SME -- 2.2.2 One-Way Reversible SME and Two-Way Reversible SME -- 2.2.3 Triple-Way Shape Memory Effect -- 2.2.4 Multifunctional SMEs -- 3. Fixity Ratio (Rf) and Recovery Ratio (Rr) -- 4. Polymer Structures and Their Approaches -- 4.1 Homopolymers -- 4.1.1 Poly(N-isoproprylacrylamide) -- 4.1.2 Poly(methyl vinyl ether) -- 4.1.3 Poly(N-vinyl caprolactam) -- 4.1.4 Poly(N-ethyl oxazoline) -- 4.2 Interpenetrating Networks -- 4.3 Copolymers -- 4.4 Polyrotaxanes (PR) -- 4.5 Blends -- 4.6 Epoxy Based Polymers</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">4.7 Polymer Brushes -- 5. Applications of Shape-Memory Polymers -- 5.1 Drug Delivery -- 5.2 Cancer Therapy -- 5.3 Tissue Engineering -- 5.4 Articles and Devices for Biomedical Applications -- 5.5 Adaptable Biological Devices -- 6. Future Prospects, Challenges and Limitations -- 7. Conclusions -- Acknowledgements -- References -- 2 -- 1. Introduction -- 2. Composite polymer -- 3. Composite green polymer -- 4. Application of green composite polymer in medical technology -- 4.1. Tissue replacement -- 4.1.1. Hard tissue applications -- 4.1.1.1. Bone fracture repair -- 4.1.1.2. Spine instrumentation</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">4.1.1.3. Joint replacements -- 4.1.1.3.1. Knee replacement -- 4.1.1.3.2. Hip replacement -- 4.1.1.3.3. Other joint replacements -- 4.1.1.3.4. Bone cement -- 4.1.1.3.5. Bone replacement (synthetic bone graft) materials -- 4.1.1.3.6. Dental applications -- 4.1.2. Soft tissue applications -- 4.1.2.1. Ureter prosthesis -- 4.1.2.2. Tendons and ligaments -- 4.1.2.3. Vascular grafts -- 4.1.3. Prosthetic limbs -- 4.1.4. Soft cell and cartilage -- 5. Case study -- Reference -- 3 -- 1. Introduction -- 2. Factors effecting performance of geomembranes -- 2.1. Oxidative degradation -- 2.2 Chemical degradation</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">2.3 Permeability of geomembranes -- 2.4 Density of geomembranes -- 2.5 Mechanical properties of geomembranes -- 2.6 Environmental stress crack resistance -- 2.7 Thermal properties of geomembranes -- 2.8 Ultraviolet (UV) degradation of geomembranes -- 3. Prospects of future research and conclusions -- 4. Performance evaluation of a few geomembranes -- References -- 4 -- Abstract -- 1. Fuel cells -- 2. 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