Verfügbarkeit: Introduction to polymeric composites with rice hulls /

Introduction to polymeric composites with rice hulls /:

There are many types of materials being used for composites, but polymers have played a major part as composite materials due to their versatility and seemingly endless possibilities. Constant research and development has enabled polymers to establish themselves as an essential part of daily life by...

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1. Verfasser:	Defonseka, Chris (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Shropshire, England : Smithers Rapra, 2014.
Schlagworte:	Polymers > Industrial applications. Textile fibers, Synthetic. Polymers. Polymères > Applications industrielles. Fibres textiles synthétiques. Polymères. synthetic fiber. polymers. TECHNOLOGY & ENGINEERING > Engineering (General) TECHNOLOGY & ENGINEERING > Reference. Polymers Polymers > Industrial applications Textile fibers, Synthetic
Online-Zugang:	Volltext
Zusammenfassung:	There are many types of materials being used for composites, but polymers have played a major part as composite materials due to their versatility and seemingly endless possibilities. Constant research and development has enabled polymers to establish themselves as an essential part of daily life by replacing traditional materials over the years. Polymer composites with biomasses have been the trend for some time now, with wood plastic composites (WPC) probably the most common. However, a new and exciting field of polymer composites are opening up: polymeric composites with rice hulls. These c.
Beschreibung:	Includes index.
Beschreibung:	1 online resource (208 pages)
ISBN:	9781909030800 1909030805

Internformat

MARC


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245	1	0	\|a Introduction to polymeric composites with rice hulls / \|c Chris Defonseka.
264		1	\|a Shropshire, England : \|b Smithers Rapra, \|c 2014.
264		4	\|c ©2014
300			\|a 1 online resource (208 pages)
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500			\|a Includes index.
588	0		\|a Online resource; title from PDF title page (ebrary, viewed December 18, 2014).
505	0		\|a Preface; Contents; Acknowledgments; A Note on Sources; 1 Introduction; 1.1 History of Composite Materials; 1.2 What are Composite Materials?; 1.2.1 Engineered Composites; 1.3 Types of Composites; 1.3.1 Composite Resins with Rice Hulls; 1.3.2 Composite Profiles with Rice Hulls; 1.3.3 Wood Polymer Composites; 1.3.4 High-density Polyethylene Resin Composites with Rice Hulls; 1.3.5 Polymer Composites with Recycled Plastics; 1.3.6 Fibre-reinforced Polymers; 1.3.7 Concrete; 1.3.8 Shape-polymer Composites; 1.3.9 Metal Fibre Composites; 1.3.10 Thermoplastic Composites with Metal Powders.
505	8		\|a 1.3.11 Structured Composites1.3.12 Natural Composite -- Wood; 1.4 Uses for Composites; 1.4.1 Polymeric Composite Resins in Injection Moulding; 1.4.2 Polymeric Composite Resins in Extrusion; 1.4.3 Polymeric Composites in Compression Moulding; 1.4.4 Some widely used Applications for Composites; 1.5 Why use Thermoplastic Bio-composites?; 2 Basic Technology of Plastics; 2.1 Introduction to Plastics; 2.2 Chemistry of Plastics; 2.2.1 The Atom; 2.2.2 Molecular Weight (Mass); 2.2.3 Polymeric Molecules; 2.2.4 Polymers; 2.2.5 Polymerisation; 2.2.6 Polymer Structures; 2.2.7 Morphological Structures.
505	8		\|a 2.2.8 Polymer Blends2.2.9 Filled Polymers; 2.2.10 Modified Polymers; 2.2.11 Polymer Groups; 2.3 Properties of Plastics; 2.3.1 Compatibility of Material Properties; 2.3.2 Mechanical Properties; 2.3.3 Friction and Wear; 2.3.4 Environmental Effects; 2.3.5 Water Absorption; 2.3.6 Weathering Effects; 2.4 Moulding Process for Plastics; 2.5 Recycling of Plastics; 3 Composite Technology; 3.1 Principles of Composites; 3.1.1 Principles of Polymeric Composite Resins; 3.1.2 Principles of Polymeric Composite Extruded Profiles; 3.1.3 Principles of Polymeric Composites in Injection Moulding.
505	8		\|a 3.1.4 Principles of Polymeric Composites in Compression Moulding3.2 Formation of Composites; 3.2.1 Extrusion; 3.2.2 Matched Die; 3.2.3 Hand Layup Processing; 3.2.4 Spray-up Processing; 3.2.5 Rigid Vacuum Forming; 3.2.6 Vacuum-bag Process; 3.2.7 Pressure-bag Processing; 3.2.8 Filament Winding Process; 3.2.9 Centrifugal Reinforcing; 3.2.10 Pultrusion; 3.2.11 Cold Stamp Forming; 3.3 General Properties of Composites; 3.3.1 Density; 3.3.2 Compressive Strength; 3.3.3 Impact Strength; 3.3.4 Permeability and Sorption; 3.3.5 Weathering; 3.3.6 Water Absorption; 3.3.7 Friction and Wear; 3.3.8 Fatigue.
505	8		\|a 3.3.9 Aesthetic Properties4 Common Polymers and Additives used for Processing; 4.1 Polyethylene; 4.1.1 Physical Properties; 4.1.2 Chemical Properties; 4.1.3 Classifications; 4.2 Polypropylene; 4.2.1 Chemical and Physical Properties; 4.3 Polyvinyl Chloride; 4.3.1 Production; 4.3.2 Additives for Polymers; 4.3.3 Plasticisers; 4.3.4 Important Properties; 4.4 Polystyrene; 4.4.1 Structure of Polystyrene; 4.4.2 Polymerisation; 4.5 High-density Polyethylene; 4.5.1 Properties; 4.6 Acrylonitrile-butadiene-styrene; 4.6.1 Properties; 4.7 Polymer Additives; 4.7.1 Anti-blocking Agents; 4.7.2 Slip Additives.
520			\|a There are many types of materials being used for composites, but polymers have played a major part as composite materials due to their versatility and seemingly endless possibilities. Constant research and development has enabled polymers to establish themselves as an essential part of daily life by replacing traditional materials over the years. Polymer composites with biomasses have been the trend for some time now, with wood plastic composites (WPC) probably the most common. However, a new and exciting field of polymer composites are opening up: polymeric composites with rice hulls. These c.
650		0	\|a Polymers \|x Industrial applications.
650		0	\|a Textile fibers, Synthetic. \|0 http://id.loc.gov/authorities/subjects/sh85134365
650		0	\|a Polymers. \|0 http://id.loc.gov/authorities/subjects/sh85104660
650		6	\|a Polymères \|x Applications industrielles.
650		6	\|a Fibres textiles synthétiques.
650		6	\|a Polymères.
650		7	\|a synthetic fiber. \|2 aat
650		7	\|a polymers. \|2 aat
650		7	\|a TECHNOLOGY & ENGINEERING \|x Engineering (General) \|2 bisacsh
650		7	\|a TECHNOLOGY & ENGINEERING \|x Reference. \|2 bisacsh
650		7	\|a Polymers \|2 fast
650		7	\|a Polymers \|x Industrial applications \|2 fast
650		7	\|a Textile fibers, Synthetic \|2 fast
758			\|i has work: \|a Introduction to polymeric composites with rice hulls (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCYp8XpG4CR7kHWBMjhcmGw \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|t Introduction to polymeric composites with rice hulls. \|d Shropshire, England : Smithers Rapra, ©2014 \|h xvi, 190 pages \|z 9781909030794
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contents	Preface; Contents; Acknowledgments; A Note on Sources; 1 Introduction; 1.1 History of Composite Materials; 1.2 What are Composite Materials?; 1.2.1 Engineered Composites; 1.3 Types of Composites; 1.3.1 Composite Resins with Rice Hulls; 1.3.2 Composite Profiles with Rice Hulls; 1.3.3 Wood Polymer Composites; 1.3.4 High-density Polyethylene Resin Composites with Rice Hulls; 1.3.5 Polymer Composites with Recycled Plastics; 1.3.6 Fibre-reinforced Polymers; 1.3.7 Concrete; 1.3.8 Shape-polymer Composites; 1.3.9 Metal Fibre Composites; 1.3.10 Thermoplastic Composites with Metal Powders. 1.3.11 Structured Composites1.3.12 Natural Composite -- Wood; 1.4 Uses for Composites; 1.4.1 Polymeric Composite Resins in Injection Moulding; 1.4.2 Polymeric Composite Resins in Extrusion; 1.4.3 Polymeric Composites in Compression Moulding; 1.4.4 Some widely used Applications for Composites; 1.5 Why use Thermoplastic Bio-composites?; 2 Basic Technology of Plastics; 2.1 Introduction to Plastics; 2.2 Chemistry of Plastics; 2.2.1 The Atom; 2.2.2 Molecular Weight (Mass); 2.2.3 Polymeric Molecules; 2.2.4 Polymers; 2.2.5 Polymerisation; 2.2.6 Polymer Structures; 2.2.7 Morphological Structures. 2.2.8 Polymer Blends2.2.9 Filled Polymers; 2.2.10 Modified Polymers; 2.2.11 Polymer Groups; 2.3 Properties of Plastics; 2.3.1 Compatibility of Material Properties; 2.3.2 Mechanical Properties; 2.3.3 Friction and Wear; 2.3.4 Environmental Effects; 2.3.5 Water Absorption; 2.3.6 Weathering Effects; 2.4 Moulding Process for Plastics; 2.5 Recycling of Plastics; 3 Composite Technology; 3.1 Principles of Composites; 3.1.1 Principles of Polymeric Composite Resins; 3.1.2 Principles of Polymeric Composite Extruded Profiles; 3.1.3 Principles of Polymeric Composites in Injection Moulding. 3.1.4 Principles of Polymeric Composites in Compression Moulding3.2 Formation of Composites; 3.2.1 Extrusion; 3.2.2 Matched Die; 3.2.3 Hand Layup Processing; 3.2.4 Spray-up Processing; 3.2.5 Rigid Vacuum Forming; 3.2.6 Vacuum-bag Process; 3.2.7 Pressure-bag Processing; 3.2.8 Filament Winding Process; 3.2.9 Centrifugal Reinforcing; 3.2.10 Pultrusion; 3.2.11 Cold Stamp Forming; 3.3 General Properties of Composites; 3.3.1 Density; 3.3.2 Compressive Strength; 3.3.3 Impact Strength; 3.3.4 Permeability and Sorption; 3.3.5 Weathering; 3.3.6 Water Absorption; 3.3.7 Friction and Wear; 3.3.8 Fatigue. 3.3.9 Aesthetic Properties4 Common Polymers and Additives used for Processing; 4.1 Polyethylene; 4.1.1 Physical Properties; 4.1.2 Chemical Properties; 4.1.3 Classifications; 4.2 Polypropylene; 4.2.1 Chemical and Physical Properties; 4.3 Polyvinyl Chloride; 4.3.1 Production; 4.3.2 Additives for Polymers; 4.3.3 Plasticisers; 4.3.4 Important Properties; 4.4 Polystyrene; 4.4.1 Structure of Polystyrene; 4.4.2 Polymerisation; 4.5 High-density Polyethylene; 4.5.1 Properties; 4.6 Acrylonitrile-butadiene-styrene; 4.6.1 Properties; 4.7 Polymer Additives; 4.7.1 Anti-blocking Agents; 4.7.2 Slip Additives.
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3.2.1 Extrusion; 3.2.2 Matched Die; 3.2.3 Hand Layup Processing; 3.2.4 Spray-up Processing; 3.2.5 Rigid Vacuum Forming; 3.2.6 Vacuum-bag Process; 3.2.7 Pressure-bag Processing; 3.2.8 Filament Winding Process; 3.2.9 Centrifugal Reinforcing; 3.2.10 Pultrusion; 3.2.11 Cold Stamp Forming; 3.3 General Properties of Composites; 3.3.1 Density; 3.3.2 Compressive Strength; 3.3.3 Impact Strength; 3.3.4 Permeability and Sorption; 3.3.5 Weathering; 3.3.6 Water Absorption; 3.3.7 Friction and Wear; 3.3.8 Fatigue.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.3.9 Aesthetic Properties4 Common Polymers and Additives used for Processing; 4.1 Polyethylene; 4.1.1 Physical Properties; 4.1.2 Chemical Properties; 4.1.3 Classifications; 4.2 Polypropylene; 4.2.1 Chemical and Physical Properties; 4.3 Polyvinyl Chloride; 4.3.1 Production; 4.3.2 Additives for Polymers; 4.3.3 Plasticisers; 4.3.4 Important Properties; 4.4 Polystyrene; 4.4.1 Structure of Polystyrene; 4.4.2 Polymerisation; 4.5 High-density Polyethylene; 4.5.1 Properties; 4.6 Acrylonitrile-butadiene-styrene; 4.6.1 Properties; 4.7 Polymer Additives; 4.7.1 Anti-blocking Agents; 4.7.2 Slip Additives.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">There are many types of materials being used for composites, but polymers have played a major part as composite materials due to their versatility and seemingly endless possibilities. Constant research and development has enabled polymers to establish themselves as an essential part of daily life by replacing traditional materials over the years. Polymer composites with biomasses have been the trend for some time now, with wood plastic composites (WPC) probably the most common. However, a new and exciting field of polymer composites are opening up: polymeric composites with rice hulls. 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id	ZDB-4-EBA-ocn900885852
illustrated	Not Illustrated
indexdate	2024-10-25T16:22:27Z
institution	BVB
isbn	9781909030800 1909030805
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publisher	Smithers Rapra,
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spelling	Defonseka, Chris, author. Introduction to polymeric composites with rice hulls / Chris Defonseka. Shropshire, England : Smithers Rapra, 2014. ©2014 1 online resource (208 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes index. Online resource; title from PDF title page (ebrary, viewed December 18, 2014). Preface; Contents; Acknowledgments; A Note on Sources; 1 Introduction; 1.1 History of Composite Materials; 1.2 What are Composite Materials?; 1.2.1 Engineered Composites; 1.3 Types of Composites; 1.3.1 Composite Resins with Rice Hulls; 1.3.2 Composite Profiles with Rice Hulls; 1.3.3 Wood Polymer Composites; 1.3.4 High-density Polyethylene Resin Composites with Rice Hulls; 1.3.5 Polymer Composites with Recycled Plastics; 1.3.6 Fibre-reinforced Polymers; 1.3.7 Concrete; 1.3.8 Shape-polymer Composites; 1.3.9 Metal Fibre Composites; 1.3.10 Thermoplastic Composites with Metal Powders. 1.3.11 Structured Composites1.3.12 Natural Composite -- Wood; 1.4 Uses for Composites; 1.4.1 Polymeric Composite Resins in Injection Moulding; 1.4.2 Polymeric Composite Resins in Extrusion; 1.4.3 Polymeric Composites in Compression Moulding; 1.4.4 Some widely used Applications for Composites; 1.5 Why use Thermoplastic Bio-composites?; 2 Basic Technology of Plastics; 2.1 Introduction to Plastics; 2.2 Chemistry of Plastics; 2.2.1 The Atom; 2.2.2 Molecular Weight (Mass); 2.2.3 Polymeric Molecules; 2.2.4 Polymers; 2.2.5 Polymerisation; 2.2.6 Polymer Structures; 2.2.7 Morphological Structures. 2.2.8 Polymer Blends2.2.9 Filled Polymers; 2.2.10 Modified Polymers; 2.2.11 Polymer Groups; 2.3 Properties of Plastics; 2.3.1 Compatibility of Material Properties; 2.3.2 Mechanical Properties; 2.3.3 Friction and Wear; 2.3.4 Environmental Effects; 2.3.5 Water Absorption; 2.3.6 Weathering Effects; 2.4 Moulding Process for Plastics; 2.5 Recycling of Plastics; 3 Composite Technology; 3.1 Principles of Composites; 3.1.1 Principles of Polymeric Composite Resins; 3.1.2 Principles of Polymeric Composite Extruded Profiles; 3.1.3 Principles of Polymeric Composites in Injection Moulding. 3.1.4 Principles of Polymeric Composites in Compression Moulding3.2 Formation of Composites; 3.2.1 Extrusion; 3.2.2 Matched Die; 3.2.3 Hand Layup Processing; 3.2.4 Spray-up Processing; 3.2.5 Rigid Vacuum Forming; 3.2.6 Vacuum-bag Process; 3.2.7 Pressure-bag Processing; 3.2.8 Filament Winding Process; 3.2.9 Centrifugal Reinforcing; 3.2.10 Pultrusion; 3.2.11 Cold Stamp Forming; 3.3 General Properties of Composites; 3.3.1 Density; 3.3.2 Compressive Strength; 3.3.3 Impact Strength; 3.3.4 Permeability and Sorption; 3.3.5 Weathering; 3.3.6 Water Absorption; 3.3.7 Friction and Wear; 3.3.8 Fatigue. 3.3.9 Aesthetic Properties4 Common Polymers and Additives used for Processing; 4.1 Polyethylene; 4.1.1 Physical Properties; 4.1.2 Chemical Properties; 4.1.3 Classifications; 4.2 Polypropylene; 4.2.1 Chemical and Physical Properties; 4.3 Polyvinyl Chloride; 4.3.1 Production; 4.3.2 Additives for Polymers; 4.3.3 Plasticisers; 4.3.4 Important Properties; 4.4 Polystyrene; 4.4.1 Structure of Polystyrene; 4.4.2 Polymerisation; 4.5 High-density Polyethylene; 4.5.1 Properties; 4.6 Acrylonitrile-butadiene-styrene; 4.6.1 Properties; 4.7 Polymer Additives; 4.7.1 Anti-blocking Agents; 4.7.2 Slip Additives. There are many types of materials being used for composites, but polymers have played a major part as composite materials due to their versatility and seemingly endless possibilities. Constant research and development has enabled polymers to establish themselves as an essential part of daily life by replacing traditional materials over the years. Polymer composites with biomasses have been the trend for some time now, with wood plastic composites (WPC) probably the most common. However, a new and exciting field of polymer composites are opening up: polymeric composites with rice hulls. These c. Polymers Industrial applications. Textile fibers, Synthetic. http://id.loc.gov/authorities/subjects/sh85134365 Polymers. http://id.loc.gov/authorities/subjects/sh85104660 Polymères Applications industrielles. Fibres textiles synthétiques. Polymères. synthetic fiber. aat polymers. aat TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Polymers fast Polymers Industrial applications fast Textile fibers, Synthetic fast has work: Introduction to polymeric composites with rice hulls (Text) https://id.oclc.org/worldcat/entity/E39PCYp8XpG4CR7kHWBMjhcmGw https://id.oclc.org/worldcat/ontology/hasWork Print version: Introduction to polymeric composites with rice hulls. Shropshire, England : Smithers Rapra, ©2014 xvi, 190 pages 9781909030794 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=919253 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=919253 Volltext
spellingShingle	Defonseka, Chris Introduction to polymeric composites with rice hulls / Preface; Contents; Acknowledgments; A Note on Sources; 1 Introduction; 1.1 History of Composite Materials; 1.2 What are Composite Materials?; 1.2.1 Engineered Composites; 1.3 Types of Composites; 1.3.1 Composite Resins with Rice Hulls; 1.3.2 Composite Profiles with Rice Hulls; 1.3.3 Wood Polymer Composites; 1.3.4 High-density Polyethylene Resin Composites with Rice Hulls; 1.3.5 Polymer Composites with Recycled Plastics; 1.3.6 Fibre-reinforced Polymers; 1.3.7 Concrete; 1.3.8 Shape-polymer Composites; 1.3.9 Metal Fibre Composites; 1.3.10 Thermoplastic Composites with Metal Powders. 1.3.11 Structured Composites1.3.12 Natural Composite -- Wood; 1.4 Uses for Composites; 1.4.1 Polymeric Composite Resins in Injection Moulding; 1.4.2 Polymeric Composite Resins in Extrusion; 1.4.3 Polymeric Composites in Compression Moulding; 1.4.4 Some widely used Applications for Composites; 1.5 Why use Thermoplastic Bio-composites?; 2 Basic Technology of Plastics; 2.1 Introduction to Plastics; 2.2 Chemistry of Plastics; 2.2.1 The Atom; 2.2.2 Molecular Weight (Mass); 2.2.3 Polymeric Molecules; 2.2.4 Polymers; 2.2.5 Polymerisation; 2.2.6 Polymer Structures; 2.2.7 Morphological Structures. 2.2.8 Polymer Blends2.2.9 Filled Polymers; 2.2.10 Modified Polymers; 2.2.11 Polymer Groups; 2.3 Properties of Plastics; 2.3.1 Compatibility of Material Properties; 2.3.2 Mechanical Properties; 2.3.3 Friction and Wear; 2.3.4 Environmental Effects; 2.3.5 Water Absorption; 2.3.6 Weathering Effects; 2.4 Moulding Process for Plastics; 2.5 Recycling of Plastics; 3 Composite Technology; 3.1 Principles of Composites; 3.1.1 Principles of Polymeric Composite Resins; 3.1.2 Principles of Polymeric Composite Extruded Profiles; 3.1.3 Principles of Polymeric Composites in Injection Moulding. 3.1.4 Principles of Polymeric Composites in Compression Moulding3.2 Formation of Composites; 3.2.1 Extrusion; 3.2.2 Matched Die; 3.2.3 Hand Layup Processing; 3.2.4 Spray-up Processing; 3.2.5 Rigid Vacuum Forming; 3.2.6 Vacuum-bag Process; 3.2.7 Pressure-bag Processing; 3.2.8 Filament Winding Process; 3.2.9 Centrifugal Reinforcing; 3.2.10 Pultrusion; 3.2.11 Cold Stamp Forming; 3.3 General Properties of Composites; 3.3.1 Density; 3.3.2 Compressive Strength; 3.3.3 Impact Strength; 3.3.4 Permeability and Sorption; 3.3.5 Weathering; 3.3.6 Water Absorption; 3.3.7 Friction and Wear; 3.3.8 Fatigue. 3.3.9 Aesthetic Properties4 Common Polymers and Additives used for Processing; 4.1 Polyethylene; 4.1.1 Physical Properties; 4.1.2 Chemical Properties; 4.1.3 Classifications; 4.2 Polypropylene; 4.2.1 Chemical and Physical Properties; 4.3 Polyvinyl Chloride; 4.3.1 Production; 4.3.2 Additives for Polymers; 4.3.3 Plasticisers; 4.3.4 Important Properties; 4.4 Polystyrene; 4.4.1 Structure of Polystyrene; 4.4.2 Polymerisation; 4.5 High-density Polyethylene; 4.5.1 Properties; 4.6 Acrylonitrile-butadiene-styrene; 4.6.1 Properties; 4.7 Polymer Additives; 4.7.1 Anti-blocking Agents; 4.7.2 Slip Additives. Polymers Industrial applications. Textile fibers, Synthetic. http://id.loc.gov/authorities/subjects/sh85134365 Polymers. http://id.loc.gov/authorities/subjects/sh85104660 Polymères Applications industrielles. Fibres textiles synthétiques. Polymères. synthetic fiber. aat polymers. aat TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Polymers fast Polymers Industrial applications fast Textile fibers, Synthetic fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85134365 http://id.loc.gov/authorities/subjects/sh85104660
title	Introduction to polymeric composites with rice hulls /
title_auth	Introduction to polymeric composites with rice hulls /
title_exact_search	Introduction to polymeric composites with rice hulls /
title_full	Introduction to polymeric composites with rice hulls / Chris Defonseka.
title_fullStr	Introduction to polymeric composites with rice hulls / Chris Defonseka.
title_full_unstemmed	Introduction to polymeric composites with rice hulls / Chris Defonseka.
title_short	Introduction to polymeric composites with rice hulls /
title_sort	introduction to polymeric composites with rice hulls
topic	Polymers Industrial applications. Textile fibers, Synthetic. http://id.loc.gov/authorities/subjects/sh85134365 Polymers. http://id.loc.gov/authorities/subjects/sh85104660 Polymères Applications industrielles. Fibres textiles synthétiques. Polymères. synthetic fiber. aat polymers. aat TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Polymers fast Polymers Industrial applications fast Textile fibers, Synthetic fast
topic_facet	Polymers Industrial applications. Textile fibers, Synthetic. Polymers. Polymères Applications industrielles. Fibres textiles synthétiques. Polymères. synthetic fiber. polymers. TECHNOLOGY & ENGINEERING Engineering (General) TECHNOLOGY & ENGINEERING Reference. Polymers Polymers Industrial applications Textile fibers, Synthetic
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=919253
work_keys_str_mv	AT defonsekachris introductiontopolymericcompositeswithricehulls

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