Descripción del título
Plastics in Medical Devices is a comprehensive overview of the main types of plastics used in medical device applications. It focuses on the applications and properties that are most important in medical device design, such as chemical resistance, sterilization capability and biocompatibility. The roles of additives, stabilizers, and fillers as well as the synthesis and production of polymers are covered and backed up with a wealth of data tables. Since the first edition the rate of advancement of materials technology has been constantly increasing
Monografía
monografia Rebiun17881324 https://catalogo.rebiun.org/rebiun/record/Rebiun17881324 cr |n||||||||| 140210s2014 ne ob 001 0 eng d 0323265634 electronic bk) 9780323265638 electronic bk) 9781455732012 145573201X UPVA 997184903003706 UAM 991008080677504211 CBUC 991010882835806709 OCLCQ. UJAEN Sastri, Vinod R. 1957-) Plastics in medical devices properties, requirements, and applications Vinny R. Sastri Servicio en línea Amsterdam Elsevier/William Andrew [2014] Amsterdam Amsterdam Elsevier/William Andrew 1 online resource (xvii, 305 pages .) 1 online resource (xvii, 305 pages .) Plastics Design Library (PDL). PDL handbook series ElsevierEvidencia21ColecMarzo_2016 Includes bibliographical references and index Mach Note continued: 9.2.3. Chemical Resistance of Styrenics -- 9.2.4. Sterilization of Styrenics -- 9.2.5. Styrenics Biocompatibility -- 9.2.6. Joining and Welding of Styrenics -- 9.2.7. Styrenics -- Applications -- 9.3. Silicones -- 9.3.1. Silicone Production -- 9.3.2. Properties of Silicones -- 9.3.3. Chemical Resistance of Silicones -- 9.3.4. Sterilization of Silicones -- 9.3.5. Silicone Biocompatibility -- 9.3.6. Joining and Welding of Silicones -- 9.3.7. Silicones -- Applications -- 9.4. Thermoplastic Elastomers (TPEs) -- 9.4.1. Thermoplastic Elastomer Production -- 9.4.2. Thermoplastic Elastomers Properties -- 9.4.3. Chemical Resistance of Thermoplastic Elastomers -- 9.4.4. Sterilization of Thermoplastic Elastomers -- 9.4.5. Thermoplastic Elastomer Biocompatibility -- 9.4.6. Thermoplastic Elastomer Joining and Welding -- 9.4.7. Thermoplastic Elastomers -- Applications -- 9.5. Biopolymers -- 9.5.1. Biopolymer Production -- 9.5.2. Biopolymer Properties -- 9.5.3. Chemical Resistance of Biopolymers -- 9.5.4. Biopolymer Sterilization -- 9.5.5. Biocompatibility of Biopolymers -- 9.5.6. Joining and Welding of Biopolymers -- 9.5.7. Biopolymers -- Applications -- 9.6. Thermosets -- 9.6.1. Thermoset Production -- 9.6.2. Properties of Thermosets -- 9.6.3. Thermosets -- Applications -- 9.7. Conclusion -- 9.8. Suppliers -- References -- 10. Purchasing Controls and Supplier Quality for Medical Device Manufacturers and Their Suppliers -- 10.1. Introduction -- 10.2. Plastics Resin and Processing Suppliers and Purchasing Controls -- 10.3. FDA 21 CFR Part 820 Quality System Regulation and ISO 13485 Standard on Purchasing Controls -- 10.4. Global Harmonization Task Force (GHTF) Guidance Document on Purchasing Controls -- 10.4.1. Planning -- 10.4.2. Selection of Potential Suppliers -- 10.4.3. Supplier Evaluation and Acceptance -- 10.4.4. Finalization of Controls -- 10.4.5. Feedback and Communication -- 10.5. GHTF Guidance Document on Inspection of Purchasing Controls -- 10.6. Conclusion -- References -- 11. Process Validation for Medical Device Manufacturers and Their Suppliers -- 11.1. Introduction -- 11.2. Process Validation and the Applicable Regulations and Standards -- 11.3. Processes That May Be Verified -- 11.4. Processes That Require Validation -- 11.5. Process Validation Overview -- 11.6. Process Validation Planning and the Master Validation Plan -- 11.6.1. The Master Validation Plan (MVP) -- 11.6.2. The Validation Plan -- 11.7. Process Validation Prerequisites -- 11.8. Process Development and Engineering Studies -- 11.8.1. Injection Molded Part Example -- 11.9. Installation Qualification (IQ) -- 11.9.1. Injection Molded Part Example -- 11.10. Operational Qualification (OQ) -- 11.10.1. Injection Molded Part Example -- 11.11. Performance Qualification (PQ) -- 11.11.1. Injection Molded Part Example -- 11.12. Process Validation Summary Report -- 11.12.1. Injection Molded Part Example -- 11.13. Manual Processes -- 11.14. Automated Processes and Software Validation -- 11.15. The Validation Life Cycle -- 11.16. Revalidation -- 11.17. Conclusion -- References Plastics in Medical Devices is a comprehensive overview of the main types of plastics used in medical device applications. It focuses on the applications and properties that are most important in medical device design, such as chemical resistance, sterilization capability and biocompatibility. The roles of additives, stabilizers, and fillers as well as the synthesis and production of polymers are covered and backed up with a wealth of data tables. Since the first edition the rate of advancement of materials technology has been constantly increasing Elsevier_evidencia(e-books). BUJA Plastics in medicine Plastics Plastics Medicine Plastics in medicine Plastics HEALTH & FITNESS Holism. bisacsh HEALTH & FITNESS Reference. bisacsh MEDICAL Alternative Medicine. bisacsh MEDICAL Atlases. bisacsh MEDICAL Essays. bisacsh MEDICAL Family & General Practice. bisacsh MEDICAL Holistic Medicine. bisacsh MEDICAL Osteopathy. bisacsh Plastics. fast Plastics in medicine. fast Plastics Design Library Elsevier evidencia e-Books (Servicio en línea) Print version Sastri, Vinod R., 1957-. Plastics in medical devices. 9781455732012 145573201X. (DLC) 2013044211 PDL handbook series