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BL
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| Record Number
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587891
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| Doc. No
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b417110
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| Title & Author
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Understanding the rheology of concrete /\ edited by Nicolas Roussel
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| Publication Statement
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Cambridge ;Philadelphia, PA :: Woodhead Publishing,, 2012
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| Series Statement
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Woodhead Publishing in materials
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| Page. NO
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xiv, 364 p. :: ill. ;; 24 cm
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| ISBN
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9780857090287
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: 0857090283
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| Bibliographies/Indexes
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Includes bibliographical references and index
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| Contents
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Machine generated contents note: 1.Introduction to the rheology of complex fluids -- 1.1.Solids / P. Coussor -- 1.2.Newtonian fluids / P. Coussor -- 1.3.Suspensions / P. Coussor -- 1.4.Fluids with slightly non-Newtonian character / P. Coussor -- 1.5.Yield stress fluids / P. Coussor -- 1.6.Thixotropy / P. Coussor -- 1.7.Viscoelasticity / P. Coussor -- 1.8.Conclusions / P. Coussor -- 2.Introduction to the rheometry of complex suspensions / P. Coussor -- 2.1.Rheometry / G. Ovarlez -- 2.2.Characterisation of simple yield stress fluids / G. Ovarlez -- 2.3.Characterisation of thixotropic yield stress fluids / G. Ovarlez -- 2.4.Advanced techniques for the study of local flow properties / G. Ovarlez -- 2.5.Notes / G. Ovarlez -- 2.6.References / G. Ovarlez -- 3.Concrete rheometers / G. Ovarlez -- 3.1.Introduction / C.F. Ferraris / N.S. Martys -- 3.2.Rotational rheometers for concrete / C.F. Ferraris / N.S. Martys -- 3.3.Comparison of concrete rheometers / N.S. Martys / C.F. Ferraris -- 3.4.Modeling of concrete rheometers / C.F. Ferraris / N.S. Martys -- 3.5.Conclusions / C.F. Ferraris / N.S. Martys -- 3.6.Acknowledgments / N.S. Martys / C.F. Ferraris -- 3.7.References / C.F. Ferraris / N.S. Martys -- 4.From industrial testing to rheological parameters for concrete / C.F. Ferraris / N.S. Martys -- 4.1.Introduction / N. Roussel -- 4.2.The slump test family and its limits / N. Roussel -- 4.3.The LCPC BOX test / N. Roussel -- 4.4.Conclusions / N. Roussel -- 4.5.References / N. Roussel -- 5.The rheology of cement during setting / N. Roussel -- 5.1.Hydration: chemical reactions and kinetics / S. Gauffinet-Garrault -- 5.2.Rheology of cement pastes / S. Gauffinet-Garrault -- 5.3.Parameters influencing mechanical efficiency of calcium hydrosilicate (CSH) / S. Gauffinet-Garrault -- 5.4.References / S. Gauffinet-Garrault -- 6.Particle packing and the rheology of concrete / S. Gauffinet-Garrault -- 6.1.Introduction / X. Chateau -- 6.2.Compacity and porosity / X. Chateau -- 6.3.Packing of mono-size spheres / X. Chateau -- 6.4.Packing of identical particles / X. Chateau -- 6.5.Packing of non-identical particles / X. Chateau -- 6.6.Particle packing models / X. Chateau -- 6.7.Fibre and grain mixture / X. Chateau -- 6.8.Effect of particle size distribution on rheology / X. Chateau -- 6.9.Conclusions / X. Chateau -- 6.10.References / X. Chateau -- 7.Superplasticizers and the rheology of concrete / X. Chateau -- 7.1.Introduction / R. Flatt / I. Schober -- 7.2.Chemical characteristics of superplasticizers / R. Flatt / I. Schober -- 7.3.Physical characteristics of superplasticizers / R. Flatt / I. Schober -- 7.4.Superplasticizers and rheology: microscopic behaviour / R. Flatt / I. Schober -- 7.5.Superplasticizers and rheology: macroscopic behaviour / R. Flatt / I. Schober -- 7.6.Superplasticizers and cement chemistry / R. Flatt / I. Schober -- 7.7.Conclusions and outlook / R. Flatt / I. Schober -- 7.8.References / R. Flatt / I. Schober -- 8.Viscosity-enhancing admixtures and the rheology of concrete / R. Flatt / I. Schober -- 8.1.Introduction / K.H. Khayat / N. Mikanovic -- 8.2.Chemical nature, classification and mode of action of viscosity-enhancing admixtures / K.H. Khayat / N. Mikanovic -- 8.3.Effect of viscosity-enhancing admixtures on rheology of water-cement systems / K.H. Khayat / N. Mikanovic -- 8.4.Effect of viscosity-enhancing admixtures on stability of cement-based systems / K.H. Khayat / N. Mikanovic -- 8.5.References / K.H. Khayat / N. Mikanovic -- 9.Fibre reinforcement and the rheology of concrete / K.H. Khayat / N. Mikanovic -- 9.1.Introduction / S. Grünewald -- 9.2.Fibres in cementitious materials / S. Grünewald -- 9.3.Fibre rheology / S. Grünewald -- 9.4.Rheology of fibre concrete / S. Grünewald -- 9.5.Developments in fibre concrete and rheology / S. Grünewald -- 9.6.Conclusions / S. Grünewald -- 9.7.References / S. Grünewald -- 9.5.Appendix: notation and symbols / S. Grünewald -- 10.Modelling the flow of self-compacting concrete / S. Grünewald -- 10.1.Introduction / L. Nyholm Thrane -- 10.1.Homogeneous fluid approach (computational fluid dynamics) / L. Nyholm Thrane -- 10.3.Distinct element method (DEM) / L. Nyholm Thrane -- 10.4.Suspension flow / L. Nyholm Thrane -- 10.5.Future trends / L. Nyholm Thrane -- 10.6.Sources of further information and advice / L. Nyholm Thrane -- 10.7.References / L. Nyholm Thrane -- 11.Thixotropy: from measurement to casting of concrete / L. Nyholm Thrane -- 11.1.Introduction / N. Roussel -- 11.2.Origin of thixotropic behaviour / N. Roussel -- 11.3.Thixotropy in practice / N. Roussel -- 11.4.Rheological models for cement paste / N. Roussel -- 11.5.Rheological models for concrete / N. Roussel -- 11.6.References / N. Roussel -- 12.Understanding formwork pressure generated by fresh concrete / N. Roussel -- 12.1.Introduction / P. Billberg -- 12.2.Factors affecting formwork pressure / P. Billberg -- 12.3.Relation of concrete structural behaviour at rest to lateral pressure / P. Billberg -- 12.4.Characterization of fresh concrete structure / P. Billberg -- 12.5.Modelling of lateral pressure / P. Billberg -- 12.6.Conclusions / P. Billberg -- 12.7.References / P. Billberg -- 13.Understanding the pumping of conventional vibrated and self-compacting concrete / P. Billberg -- 13.1.Introduction / D. Feys -- 13.2.Theoretical background / D. Feys -- 13.3.Recent experimental research / D. Feys -- 13.4.Pressure loss in straight sections / D. Feys -- 13.5.Pressure loss in bends and reducers / D. Feys -- 13.6.Conclusions / D. Feys -- 13.7.Acknowledgement / D. Feys -- 13.8.References / D. Feys
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| Subject
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Concrete-- Plastic properties
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| Subject
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Concrete-- Viscosity
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| Subject
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Rheology
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| Dewey Classification
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620.136
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