Functionalization of polyolefins [e-book] / T.C. (Mike) Chung |
Autore | Chung, T. C. |
Pubbl/distr/stampa | San Diego : Academic Press, c2002 |
Descrizione fisica | xii, 274 p. : ill. ; 24 cm |
Disciplina | 661.814 |
Soggetto topico | Polyolefins |
Soggetto genere / forma | Electronic books. |
ISBN |
9780121746513
0121746518 |
Formato | Risorse elettroniche |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Polyolefin Development and Prospects. -- General Approaches in Functionalization of Polyolefins. -- Direct Polymerization of B- and Si-containing Monomers. -- Direct Polymerization of O-, N-, and Cl-containing Monomers. -- Functionalization by Post-polymerization Processes. -- Functionalization via Reactive Polyolefins. Containing Borane Groups. -- Functionalization via Reactive Polyolefins. Containing p-Methylstyrene Groups. -- Functionalization via Reactive Polyolefins Containing Unsaturated Groups. -- Synthesis of Polyolefins with a Terminal Functional Group. -- Synthesis of Functional Polyolefin Diblock Copolymers. -- Synthesis of Functional Polyolefin Graft Copolymers. -- New Maleic-anhydride-modified and Long-chain-branched Polyolefins |
Record Nr. | UNISALENTO-991003234259707536 |
Chung, T. C. | ||
San Diego : Academic Press, c2002 | ||
Risorse elettroniche | ||
Lo trovi qui: Univ. del Salento | ||
|
Handbook of engineering and speciality thermoplastics . Volume 2 Water soluble polymers [[electronic resource] /] / Johannes Karl Fink |
Autore | Fink Johannes Karl |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley |
Descrizione fisica | 1 online resource (454 p.) |
Disciplina |
668.4/234
668.423 |
Soggetto topico |
Water-soluble polymers
Polyolefins Styrene |
ISBN |
1-283-39766-8
9786613397669 1-118-08771-2 1-118-08772-0 1-61344-195-9 1-118-08773-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Handbook of Engineering and Speciality Thermoplastics; Preface; Contents; 1 Poly(ethylene oxide); 1.1 Monomers; 1.2 Polymerization and Fabrication; 1.2.1 Functionalization; 1.2.2 Extrusion; 1.3 Properties; 1.4 Special Additives; 1.5 Applications; 1.5.1 Textile Impregnation; 1.5.2 Laundry Detergents; 1.5.3 Ink Jet Printing Media; 1.5.4 Flocculation and Coagulation; 1.5.5 Superabsorbents; 1.5.6 Food Additive; 1.5.7 Medical Applications; 1.6 Suppliers and Commercial Grades; 1.7 Environmental Impact and Recycling; Tradenames; References; 2 Poly(vinyl alcohol); 2.1 Monomers
2.2 Polymerization and Fabrication2.2.1 Hydrogels; 2.3 Properties; 2.3.1 Swelling of Hydrogels; 2.4 Applications; 2.4.1 Papermaking; 2.4.2 Textile Applications; 2.4.3 Adhesive Applications; 2.4.4 Corrosion Inhibition; 2.4.5 Membranes; 2.4.6 Medical Applications; 2.5 Suppliers and Commercial Grades; 2.6 Safety; 2.7 Environmental Impact and Recycling; Tradenames; References; 3 Polysaccharides; 3.1 Polymers; 3.2 Starch; 3.2.1 Modified Starch Types; 3.2.2 Uses of Starch Compositions; 3.3 Chitosan; 3.3.1 Nanoparticles; 3.3.2 Deodorizing Preparations; 3.3.3 Contact Lens Solutions 3.3.4 Intranasal Protein Drug Delivery3.4 Carboxymethyl cellulose; 3.4.1 Thickeners; 3.4.2 Superabsorbent Polymers; 3.4.3 Papermaking; 3.4.4 Textile Printing; 3.4.5 Laundry Compositions; 3.4.6 Shaped Activated Carbon; 3.4.7 Cosmetics and Medical; 3.4.8 Enzyme Activity; 3.5 Guar; 3.5.1 Phase Separated Solutions; 3.5.2 Fracturing Fluids; 3.6 Carrageenan; 3.6.1 Medical Applications; 3.6.2 Other Applications; 3.7 Suppliers and Commercial Grades; Tradenames; References; 4 Poly((meth)acrylic acid); 4.1 Monomers; 4.1.1 Acrylic acid; 4.1.2 Methacrylic acid; 4.2 Polymerization and Fabrication 4.2.1 Copolymers4.2.2 Hydrolysis of Poly(acrylamide); 4.2.3 Slightly Crosslinked Polymers; 4.3 Properties; 4.4 Applications; 4.4.1 Superabsorbent Polymers; 4.4.2 Viscosifier for Aqueous Compositions; 4.4.3 Laundry Detergents; 4.4.4 Emulsifier Compositions; 4.4.5 Pulps; 4.4.6 Surface Coating; 4.4.7 Polishing Integrated Circuits; 4.4.8 Anti Reflective Coatings in Semiconductor Technology; 4.4.9 Crosslinked Cellulose; 4.4.10 Teeth Bleaching Gel; 4.4.11 Oil Field Applications; 4.5 Suppliers and Commercial Grades; Tradenames; References; 5 Poly(acrylamide); 5.1 Monomers 5.2 Polymerization and Fabrication5.3 Properties; 5.3.1 Mechanical Properties; 5.3.2 Acoustic Properties; 5.3.3 Thermal Properties; 5.4 Special Additives; 5.5 Applications; 5.5.1 Membranes; 5.5.2 Sensors; 5.5.3 Flocculants; 5.5.4 Hydrogels; 5.5.5 Agriculture; 5.5.6 Remediation of Acid Spills; 5.5.7 Concrete Compositions; 5.5.8 Paper Additives; 5.5.9 Oil Field Applications; 5.5.10 Protein Analysis; 5.6 Suppliers and Commercial Grades; 5.7 Safety; 5.8 Environmental Impact and Recycling; Tradenames; References; 6 Poly(vinylamine); 6.1 Monomers; 6.2 Polymerization and Fabrication 6.2.1 Poly(N-vinylamine) |
Record Nr. | UNINA-9910131045103321 |
Fink Johannes Karl | ||
Hoboken, N.J., : Wiley | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of engineering and speciality thermoplastics . Volume 2 Water soluble polymers [[electronic resource] /] / Johannes Karl Fink |
Autore | Fink Johannes Karl |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley |
Descrizione fisica | 1 online resource (454 p.) |
Disciplina |
668.4/234
668.423 |
Soggetto topico |
Water-soluble polymers
Polyolefins Styrene |
ISBN |
1-283-39766-8
9786613397669 1-118-08771-2 1-118-08772-0 1-61344-195-9 1-118-08773-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Handbook of Engineering and Speciality Thermoplastics; Preface; Contents; 1 Poly(ethylene oxide); 1.1 Monomers; 1.2 Polymerization and Fabrication; 1.2.1 Functionalization; 1.2.2 Extrusion; 1.3 Properties; 1.4 Special Additives; 1.5 Applications; 1.5.1 Textile Impregnation; 1.5.2 Laundry Detergents; 1.5.3 Ink Jet Printing Media; 1.5.4 Flocculation and Coagulation; 1.5.5 Superabsorbents; 1.5.6 Food Additive; 1.5.7 Medical Applications; 1.6 Suppliers and Commercial Grades; 1.7 Environmental Impact and Recycling; Tradenames; References; 2 Poly(vinyl alcohol); 2.1 Monomers
2.2 Polymerization and Fabrication2.2.1 Hydrogels; 2.3 Properties; 2.3.1 Swelling of Hydrogels; 2.4 Applications; 2.4.1 Papermaking; 2.4.2 Textile Applications; 2.4.3 Adhesive Applications; 2.4.4 Corrosion Inhibition; 2.4.5 Membranes; 2.4.6 Medical Applications; 2.5 Suppliers and Commercial Grades; 2.6 Safety; 2.7 Environmental Impact and Recycling; Tradenames; References; 3 Polysaccharides; 3.1 Polymers; 3.2 Starch; 3.2.1 Modified Starch Types; 3.2.2 Uses of Starch Compositions; 3.3 Chitosan; 3.3.1 Nanoparticles; 3.3.2 Deodorizing Preparations; 3.3.3 Contact Lens Solutions 3.3.4 Intranasal Protein Drug Delivery3.4 Carboxymethyl cellulose; 3.4.1 Thickeners; 3.4.2 Superabsorbent Polymers; 3.4.3 Papermaking; 3.4.4 Textile Printing; 3.4.5 Laundry Compositions; 3.4.6 Shaped Activated Carbon; 3.4.7 Cosmetics and Medical; 3.4.8 Enzyme Activity; 3.5 Guar; 3.5.1 Phase Separated Solutions; 3.5.2 Fracturing Fluids; 3.6 Carrageenan; 3.6.1 Medical Applications; 3.6.2 Other Applications; 3.7 Suppliers and Commercial Grades; Tradenames; References; 4 Poly((meth)acrylic acid); 4.1 Monomers; 4.1.1 Acrylic acid; 4.1.2 Methacrylic acid; 4.2 Polymerization and Fabrication 4.2.1 Copolymers4.2.2 Hydrolysis of Poly(acrylamide); 4.2.3 Slightly Crosslinked Polymers; 4.3 Properties; 4.4 Applications; 4.4.1 Superabsorbent Polymers; 4.4.2 Viscosifier for Aqueous Compositions; 4.4.3 Laundry Detergents; 4.4.4 Emulsifier Compositions; 4.4.5 Pulps; 4.4.6 Surface Coating; 4.4.7 Polishing Integrated Circuits; 4.4.8 Anti Reflective Coatings in Semiconductor Technology; 4.4.9 Crosslinked Cellulose; 4.4.10 Teeth Bleaching Gel; 4.4.11 Oil Field Applications; 4.5 Suppliers and Commercial Grades; Tradenames; References; 5 Poly(acrylamide); 5.1 Monomers 5.2 Polymerization and Fabrication5.3 Properties; 5.3.1 Mechanical Properties; 5.3.2 Acoustic Properties; 5.3.3 Thermal Properties; 5.4 Special Additives; 5.5 Applications; 5.5.1 Membranes; 5.5.2 Sensors; 5.5.3 Flocculants; 5.5.4 Hydrogels; 5.5.5 Agriculture; 5.5.6 Remediation of Acid Spills; 5.5.7 Concrete Compositions; 5.5.8 Paper Additives; 5.5.9 Oil Field Applications; 5.5.10 Protein Analysis; 5.6 Suppliers and Commercial Grades; 5.7 Safety; 5.8 Environmental Impact and Recycling; Tradenames; References; 6 Poly(vinylamine); 6.1 Monomers; 6.2 Polymerization and Fabrication 6.2.1 Poly(N-vinylamine) |
Record Nr. | UNINA-9910830986403321 |
Fink Johannes Karl | ||
Hoboken, N.J., : Wiley | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of engineering and speciality thermoplastics . Volume 2 Water soluble polymers / / Johannes Karl Fink |
Autore | Fink Johannes Karl |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley |
Descrizione fisica | 1 online resource (454 p.) |
Disciplina | 668.4/234 |
Soggetto topico |
Water-soluble polymers
Polyolefins Styrene |
ISBN |
1-283-39766-8
9786613397669 1-118-08771-2 1-118-08772-0 1-61344-195-9 1-118-08773-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Handbook of Engineering and Speciality Thermoplastics; Preface; Contents; 1 Poly(ethylene oxide); 1.1 Monomers; 1.2 Polymerization and Fabrication; 1.2.1 Functionalization; 1.2.2 Extrusion; 1.3 Properties; 1.4 Special Additives; 1.5 Applications; 1.5.1 Textile Impregnation; 1.5.2 Laundry Detergents; 1.5.3 Ink Jet Printing Media; 1.5.4 Flocculation and Coagulation; 1.5.5 Superabsorbents; 1.5.6 Food Additive; 1.5.7 Medical Applications; 1.6 Suppliers and Commercial Grades; 1.7 Environmental Impact and Recycling; Tradenames; References; 2 Poly(vinyl alcohol); 2.1 Monomers
2.2 Polymerization and Fabrication2.2.1 Hydrogels; 2.3 Properties; 2.3.1 Swelling of Hydrogels; 2.4 Applications; 2.4.1 Papermaking; 2.4.2 Textile Applications; 2.4.3 Adhesive Applications; 2.4.4 Corrosion Inhibition; 2.4.5 Membranes; 2.4.6 Medical Applications; 2.5 Suppliers and Commercial Grades; 2.6 Safety; 2.7 Environmental Impact and Recycling; Tradenames; References; 3 Polysaccharides; 3.1 Polymers; 3.2 Starch; 3.2.1 Modified Starch Types; 3.2.2 Uses of Starch Compositions; 3.3 Chitosan; 3.3.1 Nanoparticles; 3.3.2 Deodorizing Preparations; 3.3.3 Contact Lens Solutions 3.3.4 Intranasal Protein Drug Delivery3.4 Carboxymethyl cellulose; 3.4.1 Thickeners; 3.4.2 Superabsorbent Polymers; 3.4.3 Papermaking; 3.4.4 Textile Printing; 3.4.5 Laundry Compositions; 3.4.6 Shaped Activated Carbon; 3.4.7 Cosmetics and Medical; 3.4.8 Enzyme Activity; 3.5 Guar; 3.5.1 Phase Separated Solutions; 3.5.2 Fracturing Fluids; 3.6 Carrageenan; 3.6.1 Medical Applications; 3.6.2 Other Applications; 3.7 Suppliers and Commercial Grades; Tradenames; References; 4 Poly((meth)acrylic acid); 4.1 Monomers; 4.1.1 Acrylic acid; 4.1.2 Methacrylic acid; 4.2 Polymerization and Fabrication 4.2.1 Copolymers4.2.2 Hydrolysis of Poly(acrylamide); 4.2.3 Slightly Crosslinked Polymers; 4.3 Properties; 4.4 Applications; 4.4.1 Superabsorbent Polymers; 4.4.2 Viscosifier for Aqueous Compositions; 4.4.3 Laundry Detergents; 4.4.4 Emulsifier Compositions; 4.4.5 Pulps; 4.4.6 Surface Coating; 4.4.7 Polishing Integrated Circuits; 4.4.8 Anti Reflective Coatings in Semiconductor Technology; 4.4.9 Crosslinked Cellulose; 4.4.10 Teeth Bleaching Gel; 4.4.11 Oil Field Applications; 4.5 Suppliers and Commercial Grades; Tradenames; References; 5 Poly(acrylamide); 5.1 Monomers 5.2 Polymerization and Fabrication5.3 Properties; 5.3.1 Mechanical Properties; 5.3.2 Acoustic Properties; 5.3.3 Thermal Properties; 5.4 Special Additives; 5.5 Applications; 5.5.1 Membranes; 5.5.2 Sensors; 5.5.3 Flocculants; 5.5.4 Hydrogels; 5.5.5 Agriculture; 5.5.6 Remediation of Acid Spills; 5.5.7 Concrete Compositions; 5.5.8 Paper Additives; 5.5.9 Oil Field Applications; 5.5.10 Protein Analysis; 5.6 Suppliers and Commercial Grades; 5.7 Safety; 5.8 Environmental Impact and Recycling; Tradenames; References; 6 Poly(vinylamine); 6.1 Monomers; 6.2 Polymerization and Fabrication 6.2.1 Poly(N-vinylamine) |
Altri titoli varianti |
Water soluble polymers
Handbook of engineering and specialty thermoplastics |
Record Nr. | UNINA-9910877795003321 |
Fink Johannes Karl | ||
Hoboken, N.J., : Wiley | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of engineering and specialty thermoplastics . Volume 1 Polyolefins and styrenics / / Johannes Karl Fink |
Autore | Fink Johannes Karl |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Hoboken : , : Wiley, , [2010] |
Descrizione fisica | 1 online resource (401 p.) |
Disciplina |
668.423
668.4234 |
Collana | Wiley-Scrivener |
Soggetto topico |
Polyolefins
Polystyrene Thermoplastics |
ISBN |
1-118-02928-3
1-282-65407-1 9786612654077 1-61344-194-0 0-470-88171-2 0-470-88185-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Handbook of Engineering and Speciality Thermoplastics; Preface; Contents; 1 Metathesis Polymers; 2 Cyclic Olefin Copolymers; 3 Ultra High Molecular Weight Poly(ethylene); 4 Poly(methyl)pentene; 5 Ionomers; 6 Poly(isobutylene); 7 Ethylene Vinyl Acetate Copolymers; 8 Acrylonitrile-Butadiene-Styrene Polymers; 9 High Impact Poly(styrene); 10 Styrene/Acrylonitrile Polymers; 11 Methyl methacrylate/Butadiene/Styrene Polymers; 12 Acrylonitrile/Styrene/Acrylate Polymers; Index |
Record Nr. | UNINA-9910140558503321 |
Fink Johannes Karl | ||
Hoboken : , : Wiley, , [2010] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of engineering and specialty thermoplastics . Volume 1 Polyolefins and styrenics / / Johannes Karl Fink |
Autore | Fink Johannes Karl |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Hoboken : , : Wiley, , [2010] |
Descrizione fisica | 1 online resource (401 p.) |
Disciplina |
668.423
668.4234 |
Collana | Wiley-Scrivener |
Soggetto topico |
Polyolefins
Polystyrene Thermoplastics |
ISBN |
1-118-02928-3
1-282-65407-1 9786612654077 1-61344-194-0 0-470-88171-2 0-470-88185-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Handbook of Engineering and Speciality Thermoplastics; Preface; Contents; 1 Metathesis Polymers; 2 Cyclic Olefin Copolymers; 3 Ultra High Molecular Weight Poly(ethylene); 4 Poly(methyl)pentene; 5 Ionomers; 6 Poly(isobutylene); 7 Ethylene Vinyl Acetate Copolymers; 8 Acrylonitrile-Butadiene-Styrene Polymers; 9 High Impact Poly(styrene); 10 Styrene/Acrylonitrile Polymers; 11 Methyl methacrylate/Butadiene/Styrene Polymers; 12 Acrylonitrile/Styrene/Acrylate Polymers; Index |
Record Nr. | UNINA-9910827524503321 |
Fink Johannes Karl | ||
Hoboken : , : Wiley, , [2010] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of polyolefins |
Edizione | [2nd ed., rev. and expanded /] |
Pubbl/distr/stampa | New York : , : Marcel Dekker, , 2000 |
Descrizione fisica | 1 online resource (1031 p.) |
Disciplina | 668.4/234 |
Altri autori (Persone) | VasileCornelia <1942-> |
Collana | Plastics engineering |
Soggetto topico | Polyolefins |
Soggetto genere / forma | Electronic books. |
ISBN |
0-429-20828-6
0-585-37887-8 1-135-56975-4 1-280-21515-1 9786610215157 0-203-90871-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Foreword to the First Edition; Preface; Contents; Contributors; Competitive New Technologies in Polyolefin Synthesis and Materials; Recent Progress on Single-Site Catalysts; Synthesis of Monomers by Olefin Metathesis; Advances in Cycloolefin Polymerization; Synthesis of Copolymers from Cycloolefins; Structure of Polyolefins; Morphology of Polyolefins; The Glass Transition of Polyolefins; Crystallization of Polyolefins; Estimation of Properties of Olefin Monomers and Polymers; Mechanical Properties and Parameters of Polyolefins; Electrical Properties
Rheological and Optical Properties and Parameters Solution Characterization of Polyolefins; Thermodynamic Properties of Polyolefin Solutions; General Survey of the Properties of Polyolefins; Degradation and Decompositon; Biocompatibility and Biodeterioration of Polyolefins; Controlled-Lifetime PO Materials; Additives for Polyolefins; Special Additives: Blowing Agents, Flame Retardants, Pigments, Fillers, and Reinforcements; Polyolefin Polyblends; Compatibilization of Polyolefin Polyblends; Surface Modifications of Polyolefins by Gas-Phase Methods Polyolefin Composites: Interfacial Phenomena and Properties Functionalized Polyolefins: Synthesis and Application in Blends and Composites; Polyolefin Fibers; Technological Aspects of Additive Use for Polyolefin Fiber Production; Technological Aspects of Additives Use for Thermoplastic and Elastomeric Polyolefins; Quality Control of Processed Thermoplastic Polyolefins; Balance of Processability, Performance, and Marketability in Metallocene Polyolefins; Appendix 1; Appendix 2; Index |
Record Nr. | UNINA-9910455440903321 |
New York : , : Marcel Dekker, , 2000 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of polyolefins |
Edizione | [2nd ed., rev. and expanded /] |
Pubbl/distr/stampa | New York : , : Marcel Dekker, , 2000 |
Descrizione fisica | 1 online resource (1031 p.) |
Disciplina | 668.4/234 |
Altri autori (Persone) | VasileCornelia <1942-> |
Collana | Plastics engineering |
Soggetto topico | Polyolefins |
ISBN |
0-429-20828-6
0-585-37887-8 1-135-56975-4 1-280-21515-1 9786610215157 0-203-90871-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Foreword to the First Edition; Preface; Contents; Contributors; Competitive New Technologies in Polyolefin Synthesis and Materials; Recent Progress on Single-Site Catalysts; Synthesis of Monomers by Olefin Metathesis; Advances in Cycloolefin Polymerization; Synthesis of Copolymers from Cycloolefins; Structure of Polyolefins; Morphology of Polyolefins; The Glass Transition of Polyolefins; Crystallization of Polyolefins; Estimation of Properties of Olefin Monomers and Polymers; Mechanical Properties and Parameters of Polyolefins; Electrical Properties
Rheological and Optical Properties and Parameters Solution Characterization of Polyolefins; Thermodynamic Properties of Polyolefin Solutions; General Survey of the Properties of Polyolefins; Degradation and Decompositon; Biocompatibility and Biodeterioration of Polyolefins; Controlled-Lifetime PO Materials; Additives for Polyolefins; Special Additives: Blowing Agents, Flame Retardants, Pigments, Fillers, and Reinforcements; Polyolefin Polyblends; Compatibilization of Polyolefin Polyblends; Surface Modifications of Polyolefins by Gas-Phase Methods Polyolefin Composites: Interfacial Phenomena and Properties Functionalized Polyolefins: Synthesis and Application in Blends and Composites; Polyolefin Fibers; Technological Aspects of Additive Use for Polyolefin Fiber Production; Technological Aspects of Additives Use for Thermoplastic and Elastomeric Polyolefins; Quality Control of Processed Thermoplastic Polyolefins; Balance of Processability, Performance, and Marketability in Metallocene Polyolefins; Appendix 1; Appendix 2; Index |
Record Nr. | UNINA-9910778833603321 |
New York : , : Marcel Dekker, , 2000 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Handbook of polyolefins |
Edizione | [2nd ed., rev. and expanded /] |
Pubbl/distr/stampa | New York, : Marcel Dekker, c2000 |
Descrizione fisica | 1 online resource (1031 p.) |
Disciplina | 668.4/234 |
Altri autori (Persone) | VasileCornelia <1942-> |
Collana | Plastics engineering |
Soggetto topico | Polyolefins |
ISBN |
0-429-20828-6
0-585-37887-8 1-135-56975-4 1-280-21515-1 9786610215157 0-203-90871-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Foreword to the First Edition; Preface; Contents; Contributors; Competitive New Technologies in Polyolefin Synthesis and Materials; Recent Progress on Single-Site Catalysts; Synthesis of Monomers by Olefin Metathesis; Advances in Cycloolefin Polymerization; Synthesis of Copolymers from Cycloolefins; Structure of Polyolefins; Morphology of Polyolefins; The Glass Transition of Polyolefins; Crystallization of Polyolefins; Estimation of Properties of Olefin Monomers and Polymers; Mechanical Properties and Parameters of Polyolefins; Electrical Properties
Rheological and Optical Properties and Parameters Solution Characterization of Polyolefins; Thermodynamic Properties of Polyolefin Solutions; General Survey of the Properties of Polyolefins; Degradation and Decompositon; Biocompatibility and Biodeterioration of Polyolefins; Controlled-Lifetime PO Materials; Additives for Polyolefins; Special Additives: Blowing Agents, Flame Retardants, Pigments, Fillers, and Reinforcements; Polyolefin Polyblends; Compatibilization of Polyolefin Polyblends; Surface Modifications of Polyolefins by Gas-Phase Methods Polyolefin Composites: Interfacial Phenomena and Properties Functionalized Polyolefins: Synthesis and Application in Blends and Composites; Polyolefin Fibers; Technological Aspects of Additive Use for Polyolefin Fiber Production; Technological Aspects of Additives Use for Thermoplastic and Elastomeric Polyolefins; Quality Control of Processed Thermoplastic Polyolefins; Balance of Processability, Performance, and Marketability in Metallocene Polyolefins; Appendix 1; Appendix 2; Index |
Record Nr. | UNINA-9910825608403321 |
New York, : Marcel Dekker, c2000 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Integrated Process Modeling, Advanced Control and Data Analytics for Optimizing Polyolefin Manufacturing / / Y. A. Liu and Niket Sharma |
Autore | Liu Y. A. |
Edizione | [First edition.] |
Pubbl/distr/stampa | Weinheim, Germany : , : WILEY-VCH GmbH, , [2023] |
Descrizione fisica | 1 online resource (865 pages) |
Disciplina | 668.4234 |
Soggetto topico | Polyolefins |
ISBN |
3-527-84383-3
3-527-84381-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover -- Volume 1 -- Title Page -- Copyright -- Contents -- Foreword -- Preface -- Acknowledgment -- Copyright Notice -- About the Authors -- About the Companion Website -- Chapter 1 Introduction to Integrated Process Modeling, Advanced Control, and Data Analytics in Optimizing Polyolefin Manufacturing -- 1.1 Segment‐Based Modeling of Polymerization Processes: Component Characterization and Polymer Attributes -- 1.1.1 Component Types in Polymer Process Modeling -- 1.1.2 Concept of Moments and Some Basic Polymer Attributes -- 1.1.3 Stream Initialization and Basic Polymer Attributes -- 1.2 Workshop 1.1: Finding the Resulting Stream Attributes After Mixing Two Copolymer Streams -- 1.2.1 Objective -- 1.2.2 Problem Statement -- 1.2.3 Process Flowsheet -- 1.2.4 Unit System, Components, and Characterization of Copolymers -- 1.2.5 Property Method and Property Parameters for Components -- 1.2.6 Specifications of Streams and Blocks -- 1.3 Workshop 1.2: A Simplified Simulation Model for a Slurry HDPE Process and the Workflow for Developing a Polymer Process Simulation Model -- 1.3.1 Objective -- 1.3.2 Step 1: Problem Setup -- 1.3.3 Step 2: Component Specifications -- 1.3.4 Step 3: Property Method -- 1.3.5 Step 4: Property Parameters - Obtaining Values from Databanks and Estimating Missing Parameters -- 1.3.6 Step 5: Verification of the Accuracy of the Selected Property Method by Comparing Predicted Pure‐Component Property Values with Report Experimental Data -- 1.3.7 Step 6: Regress Component Liquid Density Data and Binary Vapor-Liquid Equilibrium (TPXY) Data to Estimate Missing Pure‐component and Binary Interaction Parameters of Selected Property Method and Verify Predicted VLE Results with Experimental Data -- 1.3.8 Step 7: Develop Correlations for Polymer Product Quality Indices, Such as Density and Melt Index (Melt Flow Rate) Based on Plant Data.
1.3.9 Step 8: Define the Polymerization Reactions and Enter the Initial Reaction Rate Constants -- 1.3.10 Step 9: Draw the Open‐Loop Process Flowsheet and Enter the Inputs for Streams and Blocks -- 1.3.11 Step 10: Run the Initial Open‐loop Process Simulation and Check if the Simulation Results Are Reasonable -- 1.3.12 Step 11: Close the Recycled Loops, Finalize a Converged Closed‐loop Steady‐state Simulation Model, and Investigate Applications to Improving Process Operations and Identifying Operating Conditions for New Product Design -- 1.3.13 Step 12: Convert the Steady‐state Simulation Model in Aspen Plus to a Dynamic Simulation Model in Aspen Plus Dynamics -- Add Appropriate Controllers -- and Investigate Process Operability, Control, and Grade Changes -- 1.4 Industrial and Potential Applications of Integrated Process Modeling, Advanced Control, and Data Analytics to Optimizing Polyolefin Manufacturing -- 1.4.1 Industrial and Potential Applications of Process Modeling to Optimizing Polyolefin Manufacturing -- 1.4.2 Industrial and Potential Applications of Advanced Process Control to Optimizing Polyolefin Manufacturing -- 1.4.3 Industrial and Potential Applications of Data Analytics to Optimizing Polyolefin Manufacturing -- 1.4.4 Hybrid Modeling: Integrated Applications of Process Modeling, Advanced Control, and Data Analytics to Optimizing Polyolefin Manufacturing -- References -- Chapter 2 Selection of Property Methods and Estimation of Physical Properties for Polymer Process Modeling -- 2.1 Property Methods and Thermophysical Parameter Requirements for Process Simulation -- 2.2 Polymer Activity Coefficient Models (ACM): Polymer Nonrandom Two‐liquid (POLYNRTL) Model -- 2.2.1 Vapor-Liquid Equilibrium for an Ideal Vapor Phase and a Nonideal Liquid Phase. 2.2.2 General Vapor-Liquid Equilibrium Relationships Based on Fugacity Coefficient and Liquid‐phase Activity Coefficient -- 2.2.3 Segment‐based Mole Fraction Versus Species‐based Mole Fraction -- 2.2.4 POLYNRTL: Polymer Nonrandom Two‐liquid Activity Coefficient Model -- 2.2.5 Concept of Henry Components for Vapor-Liquid Equilibrium for a Vapor Phase and a Nonideal Liquid Phase Involving Supercritical Components -- 2.3 Workshop 2.1. Estimating POLYNRTL Binary Parameters Using UNIFAC -- 2.3.1 Objective -- 2.3.2 Estimating POLYNRTL Binary Parameters Using UNIFAC for Polystyrene Manufacturing -- 2.4 Prediction of Polymer Physical Properties by Van Krevelen Functional Group Method -- 2.5 Workshop 2.2. Estimating the Physical Properties of a Copolymer Using the Van Krevelen Group Contribution Method -- 2.5.1 Objective -- 2.5.2 Draw the Process Flowsheet and Specify the Unit Set and Global Options -- 2.5.3 Define Components, Segments, and Polymer and Characterize Their Structures -- 2.5.4 Choosing Property Method and Entering or Estimating Property Parameters -- 2.5.5 Specifications of Feed Stream and Flash Block -- 2.5.6 Creating Property Sets -- 2.5.7 Defining Property Analysis Run to Create Property Tables -- 2.6 Polymer Sanchez-Lacombe Equation of State (POLYSL) -- 2.7 Workshop 2.3. Estimating Property Parameters Using Data Regression Tool -- 2.7.1 Objective -- 2.7.2 Defining a DRS Run -- 2.7.3 Specifying a Unit Set and Global Options -- 2.7.4 Defining Components, Segments, Oligomers, and Polymer -- 2.7.5 Choose Property Method and Enter Known Property Parameters from Aspen Enterprise Databanks -- 2.7.6 Enter Experimental Data for Data Regression, Run the Regression, and Examine the Results -- 2.7.7 Specifying a Regression Run and the Parameters to be Regressed -- 2.7.8 Running the Regression Case and Examining the Results. 2.8 Polymer Perturbed‐chain Statistical Fluid Theory (POLYPCSF) Equation of State -- 2.9 Workshop 2.4. Regression of Property Parameters for POLYPCSF EOS -- 2.9.1 Objective and Data Sources -- 2.9.2 Regression of Pure Component Parameters for POLYPCSF EOS -- 2.10 Correlation of Polymer Product Quality Indices and Structure-Property Correlations -- 2.10.1 Polyolefin Product Quality Indices -- 2.10.2 Empirical Correlations of Polymer Product Quality Targets -- 2.10.3 Estimation of Apparent Newtonian Viscosity from MI‐MWW Measurement -- References -- Chapter 3 Reactor Modeling, Convergence Tips, and Data‐Fit Tool -- 3.1 Kinetic or Rate‐Based Reactors -- 3.2 Continuous Stirred‐Tank Reactor Model (RCSTR) -- 3.2.1 RCSTR Configurations -- 3.2.2 RCSTR Specifications -- 3.3 Plug‐Flow Reactor Model (RPLUG) -- 3.3.1 RPLUG Configurations -- 3.3.2 RPLUG Specifications -- 3.4 Batch Reactor Model (RBATCH) -- 3.4.1 RBATCH Configuration -- 3.4.2 RBATCH Specifications -- 3.5 Representation of Nonideal Reactors -- 3.6 RCSTR Convergence -- 3.6.1 Initialization -- 3.6.2 Scaling Factors -- 3.6.3 Residence Time Loop -- 3.6.4 Energy Balance Loop -- 3.6.5 Mass Balance Loop -- 3.6.6 Flash Loop -- 3.6.7 Recommendation for RCSTR Mass Balance Algorithm for Polyolefin Process Simulation -- 3.7 RPLUG/RBATCH Model Convergence -- 3.8 Data Fit (Simulation Data Regression) -- 3.9 Workshop 3.1: Data Fit of Kinetic Parameters for Styrene Polymerization Using Concentration Profile Data -- 3.9.1 Objective -- 3.9.2 A Simplified Kinetic Model for Styrene Polymerization -- 3.9.3 Datasets -- 3.9.4 Simulation Data Regression (Data Fit) -- 3.10 Workshop 3.2: Data Fit of Kinetic Parameters for Styrene Polymerization Using Point Data -- 3.10.1 Objective -- 3.10.2 Dataset -- 3.10.3 Simulation Data Regression (Data Fit) -- References -- Chapter 4 Free Radical Polymerizations: LDPE and EVA. 4.1 Polymers by Free Radical Polymerization -- 4.2 Kinetics of Free Radical Polymerization -- 4.2.1 Initiator and Its Decomposition‐Rate Parameters -- 4.2.2 Chain Initiation Reactions -- 4.2.3 Chain Propagation Reactions -- 4.2.4 Chain Transfer Reactions -- 4.2.5 Termination Reactions -- 4.2.6 Autoacceleration, Trommsdorff Effect, or Gel Effect -- 4.2.7 Other Free Radical Polymerization Reactions -- 4.3 Thermodynamic Methods and Property Parameter Requirements -- 4.4 Workshop 4.1: Simulation of an Autoclave High‐pressure LDPE Process -- 4.4.1 Objectives -- 4.4.2 Process Flowsheet and Simulation Representation -- 4.4.3 Unit System, Components, and Characterization of Polymer -- 4.4.4 Thermodynamic Methods and Property Parameters for Components, Segment, and Polymer -- 4.4.5 PCES (Physical Constant Estimation System) for Estimating Missing‐Property Parameters -- 4.4.6 Defining Free Radical Polymerization Reactions for LDPE -- 4.4.7 Specifications of Inlet Process Streams and Unit Operation and Reactor Blocks -- 4.4.8 Methodology for Improving Simulation Convergence and for Kinetic Parameter Estimation -- 4.4.9 Base‐Case Simulation Results -- 4.4.10 Model Applications -- 4.4.11 Separation Section -- 4.5 Workshop 4.2: Simulation of Tubular Reactors for HP LDPE Process -- 4.5.1 Objectives -- 4.5.2 Process Flowsheet and Simulation Representation -- 4.5.3 Unit System, Components, and Characterization of Polymer -- 4.5.4 Thermodynamic Method and Property Parameters for Components -- 4.5.5 PCES (Physical Constant Estimation System) for Estimating Missing‐Property Parameters -- 4.5.6 Free Radical Polymerization Reactions for LDPE -- 4.5.7 Specifications of Inlet Process Streams and Unit Operation and Reactor Blocks -- 4.5.8 User FORTRAN Subroutine for Heat Transfer Calculations for the LDPE Reactor. 4.5.9 Base‐Case Simulation Targets and Kinetic Parameter Estimation. |
Record Nr. | UNINA-9910830887803321 |
Liu Y. A. | ||
Weinheim, Germany : , : WILEY-VCH GmbH, , [2023] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
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