| Titre : |
Thermosets and composites material selection, applications, manufacturing and cost analysis : Material selection, applications, manufacturing and cost analysis |
| Type de document : |
texte imprimé |
| Auteurs : |
Michel Biron, Auteur |
| Mention d'édition : |
2nd. Edition |
| Editeur : |
Amsterdam [Nederland] : Elsevier |
| Année de publication : |
2014 |
| Collection : |
Plastics Design Library |
| Importance : |
XX-526 p. |
| Présentation : |
ill. |
| Format : |
28 cm |
| ISBN/ISSN/EAN : |
978-1-4557-3124-4 |
| Prix : |
182 E |
| Note générale : |
Glossaire - Index - Bibliogr. |
| Langues : |
Anglais (eng) |
| Catégories : |
Composites
Thermodurcissables
|
| Index. décimale : |
668.4 Plastiques, vinyles |
| Note de contenu : |
I. OUTLINE OF THE ACTUAL SITUATION OF PLASTICS COMPARED TO CONVENTIONAL MATERIALS : 1. Polymers : the industrial and economic reality compared to traditional materials - 2. What are thermosets, composites and hybrids ? - 3. Plastics : An answer to the designer's main problems - 4. Outline of the technical and economic possibilities of processing - 5. Environmental constraints - 6. The final material/process/cost compromise
II. THE PLASTICS INDUSTRY : ECONOMIC OVERVIEW : 1. Overview of the global plastics industry - 2. Market shares of the various thermoset families in the main industrialized countries - 3. Market shares of composites - 4. Market shares for the main application sectors - 5. Importance of the various processing modes - 6. The mature markets - 7. The emerging markets : China, India, Brazil, and Russia - 8. Consumption growth trends - 9. Structure of the plastic processing industry - 10. Plastic costs - 11. Survey of main markets - 12. Applications of the main thermoset and composite families - 13. Application examples of the main reinfocements - 14. Applications of the main processing methods - 15. The future : Economic features and new applications
III. BASIC CRITERIA FOR THE SELECTION OF THERMOSETS : 1. Evaluation of plastic properties - 2. ISO and ASTM standards concerning polymer testing - 3. Material selection - 4. Precision of the molded parts - 5. Schematic comparison of thermoset and composite properties - 6. Crosslinking, curing, hardening
IV. DETAILED ACCOUNTS OF THERMOSET RESINS FOR MOLDING AND COMPOSITE MATRICES : Polyurethanes (PUR), polyureas, polyisocyanates - 2. Unsaturated polyester (UP) - 3. Phenolic resins (PF) - 4. The amino resins : melamine (MF) and urea-formaldehyde (UF) - 5. Epoxide or epoxy resins (EP) - 6. Polyimides (PI) - 7. Silicones or polysiloxanes (MQ, PMQ, PVMQ, VMQ, or SI) and fluorosilicones (FMQ, FVMQ) - 8. Polyisocyanates or cyanate ester (Cy) - 9. Other thermosets - 10. Thermosets from renewable raw materials
V. THERMOSET PROCESSING : 1. Solid thermoset processing - 2. Liquid thermoset processing - 3. Thermoset machining - 4. Thermoset assembly - 5. Curing - 6. Another way : additive manufacturing techniques for prototyping - 7. Processing trends : cheaper, faster, easier, greener - 8. Starting points for manufacturer, converter and equipment maker search
VI. COMPOSITES : 1. Definitions - 2. Reminder - 3. Composite mechanical performances according to the reinforcement type - 4. Composite matrices - 5. Reinforcements - 6. Intermediate semi-manufactured materials - 7. Composite processing - 8. Examples of composite characteristics - 9. Bio-composites - 10. Composites solutions for practical problems
VII. FUTURE PROSPECTS FOR THERMOSETS AND COMPOSITES : 1. The laws and requirements of the market - 2. Thermoset and composite answers and assets - 3. Markets : What drives what ? The forces driving development - 4. Cost saving - 5. Material upgrading and competition - 6. The immediate future seen through recent patents - 7. The immediate future seen through recent awards - 8. Environmental concerns |
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Thermosets and composites material selection, applications, manufacturing and cost analysis / Amsterdam [Nederland] : Elsevier (2014)
