05519nam 22007094a 450 99621713880331620230829004817.01-280-51057-997866105105731-84704-461-10-470-39450-10-470-61231-21-84704-561-8(CKB)1000000000335562(EBL)700729(OCoLC)769341520(SSID)ssj0000216077(PQKBManifestationID)11912278(PQKBTitleCode)TC0000216077(PQKBWorkID)10194901(PQKB)10262207(MiAaPQ)EBC700729(MiAaPQ)EBC261400(Au-PeEL)EBL261400(OCoLC)520990379(EXLCZ)99100000000033556220060313d2006 uy 0engur|n|---|||||txtccrOrganic materials in civil engineering[electronic resource] /Yves MoutonLondon ;Newport Beach, CA ISTE Ltd.c20061 online resource (358 p.)ISTEDescription based upon print version of record.Includes bibliographical references (p. [341]-349) and index.Organic Materials in Civil Engineering; Table of Contents; Introduction; Chapter 1. Organic Polymers; 1.1. Definitions; 1.2. Macromolecular structure; 1.3. Synthesis of polymers; 1.3.1. Step polymerization or polycondensation; 1.3.1.1. Mechanism of polycondensation: polycondensation and polyaddition; 1.3.1.2. Practical applications; 1.3.2. Chain polymerization or polymerization strictly speaking; 1.4. Processing: thermoplastics and thermosets; 1.4.1. Thermoplastics and thermosets, thermorigid or thermohard; 1.4.2. Monocomponent and bicomponent; 1.5. Elastomers; 1.6. Preliminary conclusions1.7. Crystalline polymers and amorphous polymers: glass transition1.7.1. Notion of crystalline polymer; 1.7.2. Amorphous polymers: glass transition; 1.8. Mechanical behaviors of polymers: time-temperature equivalence; 1.8.1. Elastic behavior; 1.8.2. Elasto-plastic behavior; 1.8.3. Rubber-like behavior; 1.8.4. Case of cross-linked polymers; 1.8.5. Pure products and formulated products: plasticization; 1.8.6. Time-temperature equivalence; 1.9. Miscibility of polymers: concept of alloy; 1.9.1. Notion of solubility parameter; 1.9.2. Estimation of the solubility1.9.3. Polymer-polymer mixtures: notion of alloy1.10. Durability and aging of polymers: life cycles; 1.10.1. Notion of aging; 1.10.2. Principles of the methods for appreciating the life of materials; 1.10.3. Fire behavior of polymers; 1.10.4. General information on the life cycle of polymers; 1.11. Organic materials, the environment and health: evolution of the market; 1.12. Main organic and organo-metallic polymers used in civil engineering; 1.13. General conclusion; Chapter 2. Organic Binders I. Bitumen and Road Construction; 2.1. General terminology; 2.2. Manufacture of bitumen2.3. Physico-chemical composition of bitumens2.4. Various forms of bitumen; 2.4.1. Paving bitumens: characterization and classification; 2.4.2. Fluid binders; 2.4.3. Bitumen emulsions; 2.4.3.1. Formation of an emulsion; 2.4.3.2. Failure of emulsions; 2.4.3.3. Characterization of emulsions: applications; 2.5. Usage properties of paving bitumen; 2.6. Adhesiveness; 2.7. Rheological properties; 2.7.1. Viscosity; 2.7.2. Viscoelasticity; 2.7.3. Complex modulus; 2.7.4. Towards a rheological classification; 2.7.5. The SHRP program - Test methods and specifications of road binders2.7.6. Bending beam creep or BBR test2.8. Aging of bitumen; 2.9. Limits in the use of bitumen: quest for an ideal binder; 2.10. Modified bitumens, bitumens with additives and special bitumens; 2.10.1. Physico-chemical characterization of polymer modified bitumens; 2.10.2. Practical applications; 2.10.3. Bitumens with additives; 2.10.4. Special paving bitumens; 2.11. Regeneration binders; 2.12. Other uses of bitumen in civil engineering; 2.13. General conclusion; Chapter 3. Organic Binders II. Materials for the Conservation of Heritage and Safety; 3.1. Concrete repair and protection products3.1.1. Products and systems for the protection and repair of concrete structures: normative definitionsThis book provides an inventory of organic materials and products, the major components of all civil engineering projects, in terms of their scientific and technical background, including the regulations that cover their use and their predicted useful life. Such materials include: bitumen on the roads; geotextiles for retaining walls; membranes for bridges; tunnel and reservoir waterproofing; paint binders to protect metallic and concrete structures or to create road markings; injection resins; gluing products; concrete admixtures; and composite materials. The presentation is based on a phISTEPolymersOrganic compoundsCivil engineeringMaterialsPolymers.Organic compounds.Civil engineeringMaterials.624.1/8624.18Mouton Yves908102MiAaPQMiAaPQMiAaPQBOOK996217138803316Organic materials in civil engineering3066295UNISA