Polymer tribology:
Gespeichert in:
| Format: | Elektronisch E-Book |
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Imperial College Press
©2009
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| Beschreibung: | Includes bibliographical references and index pt. I. Bulk polymers. ch. 1. Adhesion and friction of polymers. 1. Introduction. 2. Polymers and polymer composites. 3. Mechanical behaviour of polymer-based materials. 4. Adhesion of polymers. 5. Friction of polymer over the hard counterface. 6. Wear of polymers. 7. Conclusions. ch. 2. Tribophysical interpretation of polymer sliding mechanisms. 1. Introduction. 2. Experimental techniques. 3. Polymer surface analysis. 4. Polymer wear debris analysis. 5. Conclusions. ch. 3. Scaling effects in tribotesting of polymers. 1. Introduction. 2. Tribotesting facilities at different scales. 3. Meso-scale to small-scale correlation. 4. Small-scale to large-scale correlation. 5. Large-scale to full-scale correlation. 6. Summary and conclusions. ch. 4. Scratch experiments and finite element simulation : friction and nonlinearity effects. 1. Introduction. 2. Experimental observations. 3. Finite element modelling. 4. Finite element results. 5. Discussion. 6. Conclusion. ch. 5. - Nanoindentation and indentation creep of polymeric materials. 1. Introduction. 2. Brief summary of basic nanoindentation analysis. 3. Problems of nanoindentation of polymeric materials. 4. Approaches to the nanoindentation of polymers or other soft materials. 5. Indentation creep experiments and analysis. 6. Theoretical analysis of nanoindentation of polymers. 7. Nanoindentation using scanning probe microscope. 8. Summary, conclusions and implications. ch. 6. Effects of physiological factors on wear of UHMWPE for joint prosthesis. 1. Introduction. 2. Physiological factor relating to joint kinematics. 3. Physiological factor relating to joint environment. 4. Summary. ch. 7. Biopolymer tribology. 1. A brief history of biopolymers in total hip replacements. 2. The use of biopolymers in other prostheses. 3. Biopolymer wear and wear debris. 4. Wear testing of biopolymers. 5. Influence of counterface roughness on wear. 6. Influence of lubricant on wear. 7. Soak controls. 8. - Theoretical lubrication analysis. 9. Friction. 10. Other polymers (nonpolyethylene). 11. All-polymer articulations. 12. Future developments in biopolymers. 13. Future challenges. 14. Summary. ch. 8. Frictional behaviour of miniature journal polymer-on-polymer bearings. 1. Introduction. 2. Experimental studies. 3. Model of contact and predicting of friction coefficient. 4. Comparison of predicted and experimentally determined frictional behaviours of studied bearings. 5. Conclusions. ch. 9. State-of-the-art of rubber tribology. 1. Introductin. 2. Rubber friction. 3. Rubber lubrication. 4. Rubber wear. 5. Wear of metal by rubber. 6. Tribology of rubber assemblies. 7. Concluding remarks -- - pt. II. Reinforced polymers. ch. 10. Wear of polytetrafluoroethylene and PTFE composites. 1. Processing and structure. 2. Sliding friction. 3. Wear. 4. PTFE composite wear reduction mechanisms. 5. Polymer-filled PTFE composites. 6. Radiation-induced wear resistance in PTFE. 7. Tomorrow's challenges : understanding nano-filled PTFE. ch. 11. Polymer composites for tribological applications in a range between liquid helium and room temperature. 1. Introduction to cryotechnology. 2. Materials and tribological characterisation. 3. Friction and wear of PTFE-based composites at room temperature. 4. Tribology of selected PEEK- and PTFE-based composites in cryogenic environments. 5. Conclusions. ch. 12. Mechanical and tribological behaviour of polymers filled with inorganic particulate fillers. 1. Introduction. 2. Effect of fillers on mechanical properties. 3. Effect of fillers on friction and wear. 4. Mechanisms of wear modification. 5. Concluding remarks. ch. 13. - The sliding wear of polypropylene and its blends. 1. Introduction. 2. Polypropylene. 3. Ultra high molecular weight polyethylene. 4. Polyethylene terephthalate/polypropylene (PET/PP) blends. 5. Recycled polyethylene terephthalate. 6. Wear properties of PP/PET blends. ch. 14 Engineering polymers and composites for machine elements. 1. Introduction and overview. 2. Rolling-sliding tests by the twin-disc technique. 3. Gears and gear testing. 4. Thermal aspects of polymeric gearing. 5. Failure modes of polymer gears. 6. Wear of polymer gears. 7. Mechanical efficiencies of polymer gears. 8. Polymer gears in high performance applications. ch. 15 Brake friction materials. 1. Introduction. 2. Ingredients of brake friction materials. 3. Sliding interface. 4. Friction materials and environmental issues. 5. Friction evaluation tests. 6. Concluding remarks. ch. 16. Study of tribological and mechanical properties of mold-in-colour polypropylene used in automobile industry. 1. Introduction. 2. - Tested samples. 3. Preliminary tests for tip selection. 4. Progressive load scratch tests. 5. Constant load scratch tests. 6. Quantitative characterisation of scratch damages. 7. Indentation tests. 8. Correlation. 9. Summary -- - pt. III. Polymer films. ch. 17. Mechanical properties of thin polymer films within contacts. 1. Introduction. 2. Contact mechanics of confined polymer coatings. 3. Visco-elastic properties of confined polymer films in the glass transition range. 4. Plastic properties of confined polymer films. 5. Conclusions. ch. 18. Tribological behaviour of polymer brush prepared by the "Grafting-from" method. 1. Introduction. 2. Preparation of high-density polymer brush on substrate. 3. Frictional property of high-density polymer brush. 4. Conclusions. ch. 19. AFM testing of polymeric resist films for nanoimprint lithography. 1. Introduction. 2. Process of imprint. 3. NIL problems. 4. Testing of materials for NIL. 5. Studies of friction between mold surface and resist film. 6. Studies of anti-stiction layers. 7. Summary. ch. 20. Tribological studies of ultra-high molecular weight polyethylene (UHMWPE) thin films on silicon surface. 1. Introduction. 2. Materials and sample preparation. 3. - Results and discussion. 4. Conclusions. ch. 21 Tribology of UHMWPE thin films on Si with interfacial layers and modifications. 1. Introduction. 2. Experimental procedures. 3. Friction and wear results. 4. Discussion. 5. Conclusions This book deals with the new and now-expanding field of friction, wear, and other surface-related mechanical phenomena for polymers. Polymers have been used in various forms such as bulk, films, and composites in applications where their friction, wear resistance, and other surface-related properties have been effectively utilized. There are also many examples in which polymers have performed extremely well, such as in tyres, shoes, brakes, gears, bearings, small moving parts in electronics and MEMS, cosmetics/hair products, and artificial human joints. Around the world, much research is currently being undertaken to develop new polymers, in different forms, for further enhancing tribological performance and for finding novel applications. Keeping in view the importance of tribology of polymers for research and technology as well as the vast literature that is now available in research papers and review articles, this timely book brings together a wealth of research data for an understanding of the basic principles of the subject |
| Beschreibung: | 1 Online-Ressource (xxvi, 697 pages) |
| ISBN: | 1848162022 1848162049 9781848162020 9781848162044 |
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| 300 | |a 1 Online-Ressource (xxvi, 697 pages) | ||
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| 500 | |a Includes bibliographical references and index | ||
| 500 | |a pt. I. Bulk polymers. ch. 1. Adhesion and friction of polymers. 1. Introduction. 2. Polymers and polymer composites. 3. Mechanical behaviour of polymer-based materials. 4. Adhesion of polymers. 5. Friction of polymer over the hard counterface. 6. Wear of polymers. 7. Conclusions. ch. 2. Tribophysical interpretation of polymer sliding mechanisms. 1. Introduction. 2. Experimental techniques. 3. Polymer surface analysis. 4. Polymer wear debris analysis. 5. Conclusions. ch. 3. Scaling effects in tribotesting of polymers. 1. Introduction. 2. Tribotesting facilities at different scales. 3. Meso-scale to small-scale correlation. 4. Small-scale to large-scale correlation. 5. Large-scale to full-scale correlation. 6. Summary and conclusions. ch. 4. Scratch experiments and finite element simulation : friction and nonlinearity effects. 1. Introduction. 2. Experimental observations. 3. Finite element modelling. 4. Finite element results. 5. Discussion. 6. Conclusion. ch. 5. | ||
| 500 | |a - Nanoindentation and indentation creep of polymeric materials. 1. Introduction. 2. Brief summary of basic nanoindentation analysis. 3. Problems of nanoindentation of polymeric materials. 4. Approaches to the nanoindentation of polymers or other soft materials. 5. Indentation creep experiments and analysis. 6. Theoretical analysis of nanoindentation of polymers. 7. Nanoindentation using scanning probe microscope. 8. Summary, conclusions and implications. ch. 6. Effects of physiological factors on wear of UHMWPE for joint prosthesis. 1. Introduction. 2. Physiological factor relating to joint kinematics. 3. Physiological factor relating to joint environment. 4. Summary. ch. 7. Biopolymer tribology. 1. A brief history of biopolymers in total hip replacements. 2. The use of biopolymers in other prostheses. 3. Biopolymer wear and wear debris. 4. Wear testing of biopolymers. 5. Influence of counterface roughness on wear. 6. Influence of lubricant on wear. 7. Soak controls. 8. | ||
| 500 | |a - Theoretical lubrication analysis. 9. Friction. 10. Other polymers (nonpolyethylene). 11. All-polymer articulations. 12. Future developments in biopolymers. 13. Future challenges. 14. Summary. ch. 8. Frictional behaviour of miniature journal polymer-on-polymer bearings. 1. Introduction. 2. Experimental studies. 3. Model of contact and predicting of friction coefficient. 4. Comparison of predicted and experimentally determined frictional behaviours of studied bearings. 5. Conclusions. ch. 9. State-of-the-art of rubber tribology. 1. Introductin. 2. Rubber friction. 3. Rubber lubrication. 4. Rubber wear. 5. Wear of metal by rubber. 6. Tribology of rubber assemblies. 7. Concluding remarks -- | ||
| 500 | |a - pt. II. Reinforced polymers. ch. 10. Wear of polytetrafluoroethylene and PTFE composites. 1. Processing and structure. 2. Sliding friction. 3. Wear. 4. PTFE composite wear reduction mechanisms. 5. Polymer-filled PTFE composites. 6. Radiation-induced wear resistance in PTFE. 7. Tomorrow's challenges : understanding nano-filled PTFE. ch. 11. Polymer composites for tribological applications in a range between liquid helium and room temperature. 1. Introduction to cryotechnology. 2. Materials and tribological characterisation. 3. Friction and wear of PTFE-based composites at room temperature. 4. Tribology of selected PEEK- and PTFE-based composites in cryogenic environments. 5. Conclusions. ch. 12. Mechanical and tribological behaviour of polymers filled with inorganic particulate fillers. 1. Introduction. 2. Effect of fillers on mechanical properties. 3. Effect of fillers on friction and wear. 4. Mechanisms of wear modification. 5. Concluding remarks. ch. 13. | ||
| 500 | |a - The sliding wear of polypropylene and its blends. 1. Introduction. 2. Polypropylene. 3. Ultra high molecular weight polyethylene. 4. Polyethylene terephthalate/polypropylene (PET/PP) blends. 5. Recycled polyethylene terephthalate. 6. Wear properties of PP/PET blends. ch. 14 Engineering polymers and composites for machine elements. 1. Introduction and overview. 2. Rolling-sliding tests by the twin-disc technique. 3. Gears and gear testing. 4. Thermal aspects of polymeric gearing. 5. Failure modes of polymer gears. 6. Wear of polymer gears. 7. Mechanical efficiencies of polymer gears. 8. Polymer gears in high performance applications. ch. 15 Brake friction materials. 1. Introduction. 2. Ingredients of brake friction materials. 3. Sliding interface. 4. Friction materials and environmental issues. 5. Friction evaluation tests. 6. Concluding remarks. ch. 16. Study of tribological and mechanical properties of mold-in-colour polypropylene used in automobile industry. 1. Introduction. 2. | ||
| 500 | |a - Tested samples. 3. Preliminary tests for tip selection. 4. Progressive load scratch tests. 5. Constant load scratch tests. 6. Quantitative characterisation of scratch damages. 7. Indentation tests. 8. Correlation. 9. Summary -- | ||
| 500 | |a - pt. III. Polymer films. ch. 17. Mechanical properties of thin polymer films within contacts. 1. Introduction. 2. Contact mechanics of confined polymer coatings. 3. Visco-elastic properties of confined polymer films in the glass transition range. 4. Plastic properties of confined polymer films. 5. Conclusions. ch. 18. Tribological behaviour of polymer brush prepared by the "Grafting-from" method. 1. Introduction. 2. Preparation of high-density polymer brush on substrate. 3. Frictional property of high-density polymer brush. 4. Conclusions. ch. 19. AFM testing of polymeric resist films for nanoimprint lithography. 1. Introduction. 2. Process of imprint. 3. NIL problems. 4. Testing of materials for NIL. 5. Studies of friction between mold surface and resist film. 6. Studies of anti-stiction layers. 7. Summary. ch. 20. Tribological studies of ultra-high molecular weight polyethylene (UHMWPE) thin films on silicon surface. 1. Introduction. 2. Materials and sample preparation. 3. | ||
| 500 | |a - Results and discussion. 4. Conclusions. ch. 21 Tribology of UHMWPE thin films on Si with interfacial layers and modifications. 1. Introduction. 2. Experimental procedures. 3. Friction and wear results. 4. Discussion. 5. Conclusions | ||
| 500 | |a This book deals with the new and now-expanding field of friction, wear, and other surface-related mechanical phenomena for polymers. Polymers have been used in various forms such as bulk, films, and composites in applications where their friction, wear resistance, and other surface-related properties have been effectively utilized. There are also many examples in which polymers have performed extremely well, such as in tyres, shoes, brakes, gears, bearings, small moving parts in electronics and MEMS, cosmetics/hair products, and artificial human joints. Around the world, much research is currently being undertaken to develop new polymers, in different forms, for further enhancing tribological performance and for finding novel applications. Keeping in view the importance of tribology of polymers for research and technology as well as the vast literature that is now available in research papers and review articles, this timely book brings together a wealth of research data for an understanding of the basic principles of the subject | ||
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Material Science |2 bisacsh | |
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| 650 | 7 | |a Tribology |2 fast | |
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I. Bulk polymers. ch. 1. Adhesion and friction of polymers. 1. Introduction. 2. Polymers and polymer composites. 3. Mechanical behaviour of polymer-based materials. 4. Adhesion of polymers. 5. Friction of polymer over the hard counterface. 6. Wear of polymers. 7. Conclusions. ch. 2. Tribophysical interpretation of polymer sliding mechanisms. 1. Introduction. 2. Experimental techniques. 3. Polymer surface analysis. 4. Polymer wear debris analysis. 5. Conclusions. ch. 3. Scaling effects in tribotesting of polymers. 1. Introduction. 2. Tribotesting facilities at different scales. 3. Meso-scale to small-scale correlation. 4. Small-scale to large-scale correlation. 5. Large-scale to full-scale correlation. 6. Summary and conclusions. ch. 4. Scratch experiments and finite element simulation : friction and nonlinearity effects. 1. Introduction. 2. Experimental observations. 3. Finite element modelling. 4. Finite element results. 5. Discussion. 6. Conclusion. ch. 5. </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - Nanoindentation and indentation creep of polymeric materials. 1. Introduction. 2. Brief summary of basic nanoindentation analysis. 3. Problems of nanoindentation of polymeric materials. 4. Approaches to the nanoindentation of polymers or other soft materials. 5. Indentation creep experiments and analysis. 6. Theoretical analysis of nanoindentation of polymers. 7. Nanoindentation using scanning probe microscope. 8. Summary, conclusions and implications. ch. 6. Effects of physiological factors on wear of UHMWPE for joint prosthesis. 1. Introduction. 2. Physiological factor relating to joint kinematics. 3. Physiological factor relating to joint environment. 4. Summary. ch. 7. Biopolymer tribology. 1. A brief history of biopolymers in total hip replacements. 2. The use of biopolymers in other prostheses. 3. Biopolymer wear and wear debris. 4. Wear testing of biopolymers. 5. Influence of counterface roughness on wear. 6. Influence of lubricant on wear. 7. Soak controls. 8. </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - Theoretical lubrication analysis. 9. Friction. 10. Other polymers (nonpolyethylene). 11. All-polymer articulations. 12. Future developments in biopolymers. 13. Future challenges. 14. Summary. ch. 8. Frictional behaviour of miniature journal polymer-on-polymer bearings. 1. Introduction. 2. Experimental studies. 3. Model of contact and predicting of friction coefficient. 4. Comparison of predicted and experimentally determined frictional behaviours of studied bearings. 5. Conclusions. ch. 9. State-of-the-art of rubber tribology. 1. Introductin. 2. Rubber friction. 3. Rubber lubrication. 4. Rubber wear. 5. Wear of metal by rubber. 6. Tribology of rubber assemblies. 7. Concluding remarks -- </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - pt. II. Reinforced polymers. ch. 10. Wear of polytetrafluoroethylene and PTFE composites. 1. Processing and structure. 2. Sliding friction. 3. Wear. 4. PTFE composite wear reduction mechanisms. 5. Polymer-filled PTFE composites. 6. Radiation-induced wear resistance in PTFE. 7. Tomorrow's challenges : understanding nano-filled PTFE. ch. 11. Polymer composites for tribological applications in a range between liquid helium and room temperature. 1. Introduction to cryotechnology. 2. Materials and tribological characterisation. 3. Friction and wear of PTFE-based composites at room temperature. 4. Tribology of selected PEEK- and PTFE-based composites in cryogenic environments. 5. Conclusions. ch. 12. Mechanical and tribological behaviour of polymers filled with inorganic particulate fillers. 1. Introduction. 2. Effect of fillers on mechanical properties. 3. Effect of fillers on friction and wear. 4. Mechanisms of wear modification. 5. Concluding remarks. ch. 13. </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - The sliding wear of polypropylene and its blends. 1. Introduction. 2. Polypropylene. 3. Ultra high molecular weight polyethylene. 4. Polyethylene terephthalate/polypropylene (PET/PP) blends. 5. Recycled polyethylene terephthalate. 6. Wear properties of PP/PET blends. ch. 14 Engineering polymers and composites for machine elements. 1. Introduction and overview. 2. Rolling-sliding tests by the twin-disc technique. 3. Gears and gear testing. 4. Thermal aspects of polymeric gearing. 5. Failure modes of polymer gears. 6. Wear of polymer gears. 7. Mechanical efficiencies of polymer gears. 8. Polymer gears in high performance applications. ch. 15 Brake friction materials. 1. Introduction. 2. Ingredients of brake friction materials. 3. Sliding interface. 4. Friction materials and environmental issues. 5. Friction evaluation tests. 6. Concluding remarks. ch. 16. Study of tribological and mechanical properties of mold-in-colour polypropylene used in automobile industry. 1. Introduction. 2. </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - Tested samples. 3. Preliminary tests for tip selection. 4. Progressive load scratch tests. 5. Constant load scratch tests. 6. Quantitative characterisation of scratch damages. 7. Indentation tests. 8. Correlation. 9. Summary -- </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - pt. III. Polymer films. ch. 17. Mechanical properties of thin polymer films within contacts. 1. Introduction. 2. Contact mechanics of confined polymer coatings. 3. Visco-elastic properties of confined polymer films in the glass transition range. 4. Plastic properties of confined polymer films. 5. Conclusions. ch. 18. Tribological behaviour of polymer brush prepared by the "Grafting-from" method. 1. Introduction. 2. Preparation of high-density polymer brush on substrate. 3. Frictional property of high-density polymer brush. 4. Conclusions. ch. 19. AFM testing of polymeric resist films for nanoimprint lithography. 1. Introduction. 2. Process of imprint. 3. NIL problems. 4. Testing of materials for NIL. 5. Studies of friction between mold surface and resist film. 6. Studies of anti-stiction layers. 7. Summary. ch. 20. Tribological studies of ultra-high molecular weight polyethylene (UHMWPE) thin films on silicon surface. 1. Introduction. 2. Materials and sample preparation. 3. </subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a"> - Results and discussion. 4. Conclusions. ch. 21 Tribology of UHMWPE thin films on Si with interfacial layers and modifications. 1. Introduction. 2. Experimental procedures. 3. Friction and wear results. 4. Discussion. 5. Conclusions</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">This book deals with the new and now-expanding field of friction, wear, and other surface-related mechanical phenomena for polymers. Polymers have been used in various forms such as bulk, films, and composites in applications where their friction, wear resistance, and other surface-related properties have been effectively utilized. There are also many examples in which polymers have performed extremely well, such as in tyres, shoes, brakes, gears, bearings, small moving parts in electronics and MEMS, cosmetics/hair products, and artificial human joints. Around the world, much research is currently being undertaken to develop new polymers, in different forms, for further enhancing tribological performance and for finding novel applications. 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| id | DE-604.BV043090279 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:17:07Z |
| institution | BVB |
| isbn | 1848162022 1848162049 9781848162020 9781848162044 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-028514471 |
| oclc_num | 613684869 |
| open_access_boolean | |
| owner | DE-1046 DE-1047 |
| owner_facet | DE-1046 DE-1047 |
| physical | 1 Online-Ressource (xxvi, 697 pages) |
| psigel | ZDB-4-EBA ZDB-4-EBA FAW_PDA_EBA |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Imperial College Press |
| record_format | marc |
| spelling | Polymer tribology editors, Sujeet K Sinha, Brian J Briscoe London Imperial College Press ©2009 1 Online-Ressource (xxvi, 697 pages) txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index pt. I. Bulk polymers. ch. 1. Adhesion and friction of polymers. 1. Introduction. 2. Polymers and polymer composites. 3. Mechanical behaviour of polymer-based materials. 4. Adhesion of polymers. 5. Friction of polymer over the hard counterface. 6. Wear of polymers. 7. Conclusions. ch. 2. Tribophysical interpretation of polymer sliding mechanisms. 1. Introduction. 2. Experimental techniques. 3. Polymer surface analysis. 4. Polymer wear debris analysis. 5. Conclusions. ch. 3. Scaling effects in tribotesting of polymers. 1. Introduction. 2. Tribotesting facilities at different scales. 3. Meso-scale to small-scale correlation. 4. Small-scale to large-scale correlation. 5. Large-scale to full-scale correlation. 6. Summary and conclusions. ch. 4. Scratch experiments and finite element simulation : friction and nonlinearity effects. 1. Introduction. 2. Experimental observations. 3. Finite element modelling. 4. Finite element results. 5. Discussion. 6. Conclusion. ch. 5. - Nanoindentation and indentation creep of polymeric materials. 1. Introduction. 2. Brief summary of basic nanoindentation analysis. 3. Problems of nanoindentation of polymeric materials. 4. Approaches to the nanoindentation of polymers or other soft materials. 5. Indentation creep experiments and analysis. 6. Theoretical analysis of nanoindentation of polymers. 7. Nanoindentation using scanning probe microscope. 8. Summary, conclusions and implications. ch. 6. Effects of physiological factors on wear of UHMWPE for joint prosthesis. 1. Introduction. 2. Physiological factor relating to joint kinematics. 3. Physiological factor relating to joint environment. 4. Summary. ch. 7. Biopolymer tribology. 1. A brief history of biopolymers in total hip replacements. 2. The use of biopolymers in other prostheses. 3. Biopolymer wear and wear debris. 4. Wear testing of biopolymers. 5. Influence of counterface roughness on wear. 6. Influence of lubricant on wear. 7. Soak controls. 8. - Theoretical lubrication analysis. 9. Friction. 10. Other polymers (nonpolyethylene). 11. All-polymer articulations. 12. Future developments in biopolymers. 13. Future challenges. 14. Summary. ch. 8. Frictional behaviour of miniature journal polymer-on-polymer bearings. 1. Introduction. 2. Experimental studies. 3. Model of contact and predicting of friction coefficient. 4. Comparison of predicted and experimentally determined frictional behaviours of studied bearings. 5. Conclusions. ch. 9. State-of-the-art of rubber tribology. 1. Introductin. 2. Rubber friction. 3. Rubber lubrication. 4. Rubber wear. 5. Wear of metal by rubber. 6. Tribology of rubber assemblies. 7. Concluding remarks -- - pt. II. Reinforced polymers. ch. 10. Wear of polytetrafluoroethylene and PTFE composites. 1. Processing and structure. 2. Sliding friction. 3. Wear. 4. PTFE composite wear reduction mechanisms. 5. Polymer-filled PTFE composites. 6. Radiation-induced wear resistance in PTFE. 7. Tomorrow's challenges : understanding nano-filled PTFE. ch. 11. Polymer composites for tribological applications in a range between liquid helium and room temperature. 1. Introduction to cryotechnology. 2. Materials and tribological characterisation. 3. Friction and wear of PTFE-based composites at room temperature. 4. Tribology of selected PEEK- and PTFE-based composites in cryogenic environments. 5. Conclusions. ch. 12. Mechanical and tribological behaviour of polymers filled with inorganic particulate fillers. 1. Introduction. 2. Effect of fillers on mechanical properties. 3. Effect of fillers on friction and wear. 4. Mechanisms of wear modification. 5. Concluding remarks. ch. 13. - The sliding wear of polypropylene and its blends. 1. Introduction. 2. Polypropylene. 3. Ultra high molecular weight polyethylene. 4. Polyethylene terephthalate/polypropylene (PET/PP) blends. 5. Recycled polyethylene terephthalate. 6. Wear properties of PP/PET blends. ch. 14 Engineering polymers and composites for machine elements. 1. Introduction and overview. 2. Rolling-sliding tests by the twin-disc technique. 3. Gears and gear testing. 4. Thermal aspects of polymeric gearing. 5. Failure modes of polymer gears. 6. Wear of polymer gears. 7. Mechanical efficiencies of polymer gears. 8. Polymer gears in high performance applications. ch. 15 Brake friction materials. 1. Introduction. 2. Ingredients of brake friction materials. 3. Sliding interface. 4. Friction materials and environmental issues. 5. Friction evaluation tests. 6. Concluding remarks. ch. 16. Study of tribological and mechanical properties of mold-in-colour polypropylene used in automobile industry. 1. Introduction. 2. - Tested samples. 3. Preliminary tests for tip selection. 4. Progressive load scratch tests. 5. Constant load scratch tests. 6. Quantitative characterisation of scratch damages. 7. Indentation tests. 8. Correlation. 9. Summary -- - pt. III. Polymer films. ch. 17. Mechanical properties of thin polymer films within contacts. 1. Introduction. 2. Contact mechanics of confined polymer coatings. 3. Visco-elastic properties of confined polymer films in the glass transition range. 4. Plastic properties of confined polymer films. 5. Conclusions. ch. 18. Tribological behaviour of polymer brush prepared by the "Grafting-from" method. 1. Introduction. 2. Preparation of high-density polymer brush on substrate. 3. Frictional property of high-density polymer brush. 4. Conclusions. ch. 19. AFM testing of polymeric resist films for nanoimprint lithography. 1. Introduction. 2. Process of imprint. 3. NIL problems. 4. Testing of materials for NIL. 5. Studies of friction between mold surface and resist film. 6. Studies of anti-stiction layers. 7. Summary. ch. 20. Tribological studies of ultra-high molecular weight polyethylene (UHMWPE) thin films on silicon surface. 1. Introduction. 2. Materials and sample preparation. 3. - Results and discussion. 4. Conclusions. ch. 21 Tribology of UHMWPE thin films on Si with interfacial layers and modifications. 1. Introduction. 2. Experimental procedures. 3. Friction and wear results. 4. Discussion. 5. Conclusions This book deals with the new and now-expanding field of friction, wear, and other surface-related mechanical phenomena for polymers. Polymers have been used in various forms such as bulk, films, and composites in applications where their friction, wear resistance, and other surface-related properties have been effectively utilized. There are also many examples in which polymers have performed extremely well, such as in tyres, shoes, brakes, gears, bearings, small moving parts in electronics and MEMS, cosmetics/hair products, and artificial human joints. Around the world, much research is currently being undertaken to develop new polymers, in different forms, for further enhancing tribological performance and for finding novel applications. Keeping in view the importance of tribology of polymers for research and technology as well as the vast literature that is now available in research papers and review articles, this timely book brings together a wealth of research data for an understanding of the basic principles of the subject TECHNOLOGY & ENGINEERING / Material Science bisacsh Polymers / Surfaces fast Tribology fast Polymers Surfaces Tribology Tribologie (DE-588)4060847-5 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Polymere (DE-588)4046699-1 s Tribologie (DE-588)4060847-5 s 1\p DE-604 Sinha, Sujeet K. Sonstige oth Briscoe, B. J. Sonstige oth World Scientific (Firm) Sonstige oth http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=305138 Aggregator Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Polymer tribology TECHNOLOGY & ENGINEERING / Material Science bisacsh Polymers / Surfaces fast Tribology fast Polymers Surfaces Tribology Tribologie (DE-588)4060847-5 gnd Polymere (DE-588)4046699-1 gnd |
| subject_GND | (DE-588)4060847-5 (DE-588)4046699-1 |
| title | Polymer tribology |
| title_auth | Polymer tribology |
| title_exact_search | Polymer tribology |
| title_full | Polymer tribology editors, Sujeet K Sinha, Brian J Briscoe |
| title_fullStr | Polymer tribology editors, Sujeet K Sinha, Brian J Briscoe |
| title_full_unstemmed | Polymer tribology editors, Sujeet K Sinha, Brian J Briscoe |
| title_short | Polymer tribology |
| title_sort | polymer tribology |
| topic | TECHNOLOGY & ENGINEERING / Material Science bisacsh Polymers / Surfaces fast Tribology fast Polymers Surfaces Tribology Tribologie (DE-588)4060847-5 gnd Polymere (DE-588)4046699-1 gnd |
| topic_facet | TECHNOLOGY & ENGINEERING / Material Science Polymers / Surfaces Tribology Polymers Surfaces Tribologie Polymere |
| url | http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=305138 |
| work_keys_str_mv | AT sinhasujeetk polymertribology AT briscoebj polymertribology AT worldscientificfirm polymertribology |