Green composites sustainable raw materials
2.2.1 Fibre-Reinforced Composites2.2.2 Particulate-Reinforced Composites; 2.2.3 Structural Composites; 2.3 Advantages and Limitations of Composites; 3 Effect of Composites and Their Materials on the Environment; 3.1 Impact of Different Composite Materials on the Environment; 3.1.1 Impact of Polymers...
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| Format: | UnknownFormat |
| Sprache: | eng |
| Veröffentlicht: |
Singapore
Springer
2019
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| Schriftenreihe: | Textile science and clothing technology
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| Schlagworte: | |
| Online Zugang: | Inhaltsverzeichnis Beschreibung & Leseprobe |
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Tag hinzufügen | Zusammenfassung: | 2.2.1 Fibre-Reinforced Composites2.2.2 Particulate-Reinforced Composites; 2.2.3 Structural Composites; 2.3 Advantages and Limitations of Composites; 3 Effect of Composites and Their Materials on the Environment; 3.1 Impact of Different Composite Materials on the Environment; 3.1.1 Impact of Polymers; 3.1.2 Impact of Metals; 3.2 Impact of Composites; 3.2.1 Non-Degradable Composites; 3.2.2 Partially Degradable Composites; 3.2.3 Biodegradable Composites; 4 Environmentally Harmless Green Composites; 4.1 Green Composite Reinforcements and Matrix; 4.1.1 Natural Fibres; Plant Fibres; Animal Fibres 3.3 Chemical Methods3.3.1 Alkali Treatment; 3.3.2 Graft Copolymerization; 3.3.3 Grafting of Cellulose; 3.3.4 Other Chemical Treatments; 4 Application of Sustainable Raw Materials as Green Composite; 4.1 Sustainable Green Composites from Natural Oil-Based Resins; 4.2 Sustainable Green Composites from Soy Protein-Based Resin; 4.3 Sustainable Green Composites from Polylactic Acid-Based Resin; 4.4 Sustainable Green Composites from Starch-Based Materials; 5 Some Novel Sustainable Lignocellulosic Fibres Used as Reinforcing Materials; 5.1 Fibres from Agave angustifolia Plant 3.1.4 Vebe Time3.2 Hardened Properties; 3.2.1 Compressive Strength; 3.2.2 Splitting Tensile Strength; 3.2.3 Flexural Strength; 3.2.4 Impact Resistance; 3.2.5 Water Absorption; 3.2.6 Chloride Penetration; 3.3 Microstructural Analysis; 4 Applications; 5 Conclusions; References; 3 Environmentally Benign and Sustainable Green Composites: Current Developments and Challenges; Abstract; 1 Introduction; 2 Composites; 2.1 Matrix Materials; 2.1.1 Polymer Matrix; Thermoset Resin Matrices; Thermoplastic Resin Matrices; 2.1.2 Metal Matrix; 2.1.3 Ceramic Matrix; 2.2 Reinforcing Materials 5.2 Fibres from Abelmoschus manihot Plant5.3 Fibres from Sansevieria roxburghiana Plant; 5.4 Fibres from Pandanus odorifer Plant; 6 Challenges in Sustainable Composites; 7 Conclusions; References; 2 Production of Sustainable Green Concrete Composites Comprising Industrial Waste Carpet Fibres; Abstract; 1 Introduction; 1.1 General Appraisal; 1.2 Background; 2 Waste Carpet Fibres; 2.1 Types and Sources of Waste Carpet; 2.2 Carpet Fibre Recycling Technology; 3 Concrete Composites Incorporating Waste Carpet Fibres; 3.1 Fresh Properties; 3.1.1 Density; 3.1.2 Air Content; 3.1.3 Slump Intro; Contents; 1 Production of Green Composites from Various Sustainable Raw Materials; Abstract; 1 Properties of Sustainable Raw Materials as Reinforcing Materials; 2 Composites; 2.1 Sustainable Fibres Used in Composite; 2.2 Necessity of Matrix and Its Role in Preparation of Fibre-Reinforced Polymer Composite; 2.2.1 Resin Matrix; 2.2.2 Thermoset Benefits; 2.2.3 Thermoplastic Benefits; 2.2.4 Polyester Resins; 2.2.5 Vinyl Ester Resins; 2.2.6 Epoxy Resins; 3 Surface Modification of Bast Fibres for Composite Materials; 3.1 Surface Modification Methods of Natural Fibres; 3.2 Physical Methods |
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| Beschreibung: | Literaturangaben |
| Beschreibung: | viii, 90 Seiten Illustrationen, Diagramme |
| ISBN: | 9789811319686 978-981-13-1968-6 |