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 impo… Mehr…
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. In the new edition Dr. Sastri not only provides a thorough update of the first edition chapters with new information regarding new plastic materials, applications and new requirements, but also adds two chapters – one on market and regulatory aspects and supplier controls, and one on process validation. Both chapters meet an urgent need in the industry and make the book an all-encompassing reference not found anywhere else. Comprehensive coverage of uses of polymers for medical devices Unique coverage of medical device regulatory aspects, supplier control and process validation Invaluable guide for engineers, scientists and managers involved in the development and marketing of medical devices and materials for use in medical devices Properties, Requirements, and Applications William Andrew Materials Science 21 CFR Part 820; Acrylic; Acrylics; Acute System Toxicity test; Adhesive bonding; Adhesives; Antimicrobial additive; Antistatic additive; Atactic PS; Autoclaving; Bioburden; Biocompatibility; Biologics Master File; Biopolymer; Bisphenol A (BPA); Ceramics; Commodity thermoplastics; Compliance Policy Guide (CPG); Conductive additive; Copolyester; Copolymers; Corrective action or preventive action (CAPA); Cyanoacrylate; Cyclo olefin copolymers (COCs); Cytotoxicity; Device Master File; Device Master Record (DMR); Di(2-ethylhexyl)phthalate (DEHP); Diphenyl carbonate (DPC); Disposables; Drug Master File; E-beam radiation; Elastomers; Electrostatic discharge (ESD); Engineering thermoplastics; Environmental stress crack resistance (ESCR); Epoxy; Ethylene oxide (EtO); Extractables; FDA 21 CFR Part 820; FDA Master File; Fluoropolymer; Food Master File; Food and Drug Administration (FDA); Fungi; Genotoxicity; Glasses; Global Harmonization Task Force (GHTF); Good Clinical Practice (GCP); Good manufacturing practice (GMP); Heated tool or plate welding; Hemocompatibility; High-frequency welding; High-temperature thermoplastic polymer; High-temperature thermoplastics; Homopolymers; ISO 13485; ISO 134852003; Infrared welding; Installation qualification (IQ); International Medical Device Regulators Forum (IMDRF); International Organization for Standardization (ISO); Investigational New Animal Exemptions (INADs); Isotactic PS; Laser marking; Laser welding; Leachables; Linear low-density polyethylene (LLDPE); Liquid crystalline polymer (LCP); Low-density polyethylene (LDPE); Master Validation Plan (MVP); Medical Device Directive (MDD); Medical device; Metals; Molds; Nanoadditive; Nanoclay; Nanosilicate; Nanosilver; Nanotalc; New Animal Drug Applications (NADAs); Nondisposables; Nylon; Operational qualification (OQ); Original equipment manufacturer (OEM); Performance qualification (PQ); Phenolic; Plasticizer; Plastics; Poly(lactide-co-glycolide) (PLGA); Poly-l-lactide (PLLA); Polyacetal; Polyamide; Polyamide-imide (PAI); Polyaryletherketone; Polycaprolactone (PCL); Polycarbonate (PC); Polycyclohexylene dimethylene terephthalate (PCT); Polyester; Polyether ether ketone (PEEK); Polyetherimide (PEI); Polyethylene (PE); Polyglycolic acid (PGA); Polyhydroxybutyrate (PHB); Polyimide; Polyketone; Polylactic acid (PLA); Polymethyl methacrylate (PMMA); Polyolefins; Polyoxymethylene; Polyphenylene sulfide (PPS); Polypropylene (PP); Polystyrene (PS); Polysulfide; Polysulfone (PSU); Polytetrafluoroethylene (PTFE); Polyurethane (PU); Polyvinyl chloride (PVC); Post-Marketing Assessment (PMA); Process validation; Purchasing controls; Pyrogens; Quality Management Systems; Quality Systems Inspection Technique (QSIT); Radio frequency (RF) welding; Radiopaque additive; Silicone; Solvent bonding; Spin welding; Sterility Assurance Level (SAL); Sterilization; Styrenics; Subchronic Toxicity test; Supplier quality; Syndiotactic PS (sPS); Thermoplastic copolyester elastomer (TPC); Thermoplastic elastomer (TPE); Thermoplastic polyamide elastomer (TPA); Thermoplastic polyolefin elastomer (TPO); Thermoplastic polystyrene elastomer (TPS); Thermoplastic urethane elastomer (TPU); Thermoplastics; Thermoset; Thermosets; Ultrahigh molecular weight polyethylene (UHMWPE); Ultrasonic welding; Unsaturated ester; Urethane; Validation Plan; Veterinary Medicine Master File; Vibration welding; Viruses; Wood; 9781455732012 DE,GB,ES,IT,FR English Technology & Engineering, Elsevier Science<
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 impo… Mehr…
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. In the new edition Dr. Sastri not only provides a thorough update of the first edition chapters with new information regarding new plastic materials, applications and new requirements, but also adds two chapters - one on market and regulatory aspects and supplier controls, and one on process validation. Both chapters meet an urgent need in the industry and make the book an all-encompassing reference not found anywhere else.Comprehensive coverage of uses of polymers for medical devices.Unique coverage of medical device regulatory aspects, supplier control and process validation.Invaluable guide for engineers, scientists and managers involved in the development and marketing of medical devices and materials for use in medical devices.; EPUB; Scientific, Technical and Medical > Nursing & ancillary services > Biomedical engineering, Pan Macmillan<
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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 impo… Mehr…
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. In the new edition Dr. Sastri not only provides a thorough update of the first edition chapters with new information regarding new plastic materials, applications and new requirements, but also adds two chapters “ one on market and regulatory aspects and supplier controls, and one on process validation. Both chapters meet an urgent need in the industry and make the book an all-encompassing reference not found anywhere else. Engineering Media > Ebook > Engineering Materials Engineering Ebook, William Andrew<
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 impo… Mehr…
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., Elsevier Science<
Plastics in Medical Devices: Properties, Requirements, and Applications Plastics-in-Medical-Devices~~Vinny-R-Sastri Science>Engineering>Chemical Engr NOOK Book (eBook), Elsevier Science
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 impo… Mehr…
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. In the new edition Dr. Sastri not only provides a thorough update of the first edition chapters with new information regarding new plastic materials, applications and new requirements, but also adds two chapters – one on market and regulatory aspects and supplier controls, and one on process validation. Both chapters meet an urgent need in the industry and make the book an all-encompassing reference not found anywhere else. Comprehensive coverage of uses of polymers for medical devices Unique coverage of medical device regulatory aspects, supplier control and process validation Invaluable guide for engineers, scientists and managers involved in the development and marketing of medical devices and materials for use in medical devices Properties, Requirements, and Applications William Andrew Materials Science 21 CFR Part 820; Acrylic; Acrylics; Acute System Toxicity test; Adhesive bonding; Adhesives; Antimicrobial additive; Antistatic additive; Atactic PS; Autoclaving; Bioburden; Biocompatibility; Biologics Master File; Biopolymer; Bisphenol A (BPA); Ceramics; Commodity thermoplastics; Compliance Policy Guide (CPG); Conductive additive; Copolyester; Copolymers; Corrective action or preventive action (CAPA); Cyanoacrylate; Cyclo olefin copolymers (COCs); Cytotoxicity; Device Master File; Device Master Record (DMR); Di(2-ethylhexyl)phthalate (DEHP); Diphenyl carbonate (DPC); Disposables; Drug Master File; E-beam radiation; Elastomers; Electrostatic discharge (ESD); Engineering thermoplastics; Environmental stress crack resistance (ESCR); Epoxy; Ethylene oxide (EtO); Extractables; FDA 21 CFR Part 820; FDA Master File; Fluoropolymer; Food Master File; Food and Drug Administration (FDA); Fungi; Genotoxicity; Glasses; Global Harmonization Task Force (GHTF); Good Clinical Practice (GCP); Good manufacturing practice (GMP); Heated tool or plate welding; Hemocompatibility; High-frequency welding; High-temperature thermoplastic polymer; High-temperature thermoplastics; Homopolymers; ISO 13485; ISO 134852003; Infrared welding; Installation qualification (IQ); International Medical Device Regulators Forum (IMDRF); International Organization for Standardization (ISO); Investigational New Animal Exemptions (INADs); Isotactic PS; Laser marking; Laser welding; Leachables; Linear low-density polyethylene (LLDPE); Liquid crystalline polymer (LCP); Low-density polyethylene (LDPE); Master Validation Plan (MVP); Medical Device Directive (MDD); Medical device; Metals; Molds; Nanoadditive; Nanoclay; Nanosilicate; Nanosilver; Nanotalc; New Animal Drug Applications (NADAs); Nondisposables; Nylon; Operational qualification (OQ); Original equipment manufacturer (OEM); Performance qualification (PQ); Phenolic; Plasticizer; Plastics; Poly(lactide-co-glycolide) (PLGA); Poly-l-lactide (PLLA); Polyacetal; Polyamide; Polyamide-imide (PAI); Polyaryletherketone; Polycaprolactone (PCL); Polycarbonate (PC); Polycyclohexylene dimethylene terephthalate (PCT); Polyester; Polyether ether ketone (PEEK); Polyetherimide (PEI); Polyethylene (PE); Polyglycolic acid (PGA); Polyhydroxybutyrate (PHB); Polyimide; Polyketone; Polylactic acid (PLA); Polymethyl methacrylate (PMMA); Polyolefins; Polyoxymethylene; Polyphenylene sulfide (PPS); Polypropylene (PP); Polystyrene (PS); Polysulfide; Polysulfone (PSU); Polytetrafluoroethylene (PTFE); Polyurethane (PU); Polyvinyl chloride (PVC); Post-Marketing Assessment (PMA); Process validation; Purchasing controls; Pyrogens; Quality Management Systems; Quality Systems Inspection Technique (QSIT); Radio frequency (RF) welding; Radiopaque additive; Silicone; Solvent bonding; Spin welding; Sterility Assurance Level (SAL); Sterilization; Styrenics; Subchronic Toxicity test; Supplier quality; Syndiotactic PS (sPS); Thermoplastic copolyester elastomer (TPC); Thermoplastic elastomer (TPE); Thermoplastic polyamide elastomer (TPA); Thermoplastic polyolefin elastomer (TPO); Thermoplastic polystyrene elastomer (TPS); Thermoplastic urethane elastomer (TPU); Thermoplastics; Thermoset; Thermosets; Ultrahigh molecular weight polyethylene (UHMWPE); Ultrasonic welding; Unsaturated ester; Urethane; Validation Plan; Veterinary Medicine Master File; Vibration welding; Viruses; Wood; 9781455732012 DE,GB,ES,IT,FR English Technology & Engineering, Elsevier Science<
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 impo… Mehr…
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. In the new edition Dr. Sastri not only provides a thorough update of the first edition chapters with new information regarding new plastic materials, applications and new requirements, but also adds two chapters - one on market and regulatory aspects and supplier controls, and one on process validation. Both chapters meet an urgent need in the industry and make the book an all-encompassing reference not found anywhere else.Comprehensive coverage of uses of polymers for medical devices.Unique coverage of medical device regulatory aspects, supplier control and process validation.Invaluable guide for engineers, scientists and managers involved in the development and marketing of medical devices and materials for use in medical devices.; EPUB; Scientific, Technical and Medical > Nursing & ancillary services > Biomedical engineering, Pan Macmillan<
- No. 9780323265638. Versandkosten:Instock, Despatched same working day before 3pm, zzgl. Versandkosten.
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 impo… Mehr…
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. In the new edition Dr. Sastri not only provides a thorough update of the first edition chapters with new information regarding new plastic materials, applications and new requirements, but also adds two chapters “ one on market and regulatory aspects and supplier controls, and one on process validation. Both chapters meet an urgent need in the industry and make the book an all-encompassing reference not found anywhere else. Engineering Media > Ebook > Engineering Materials Engineering Ebook, William Andrew<
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 impo… Mehr…
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., Elsevier Science<
Plastics in Medical Devices: Properties, Requirements, and Applications Plastics-in-Medical-Devices~~Vinny-R-Sastri Science>Engineering>Chemical Engr NOOK Book (eBook), Elsevier Science
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Buch in der Datenbank seit 2014-04-02T00:18:18+02:00 (Berlin) Detailseite zuletzt geändert am 2024-01-03T10:49:02+01:00 (Berlin) ISBN/EAN: 9780323265638
ISBN - alternative Schreibweisen: 978-0-323-26563-8 Alternative Schreibweisen und verwandte Suchbegriffe: Autor des Buches: deborah crombie Titel des Buches: plastic, plastics medical devices properties requirements and applications, devices wonder
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