- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Concrete Mixture Proportioning provides a comprehensive theory for the rational design of concrete mixtures. It allows the user to achieve an internationally applicable mastery of concrete material through the use of computer software.
Andere Kunden interessierten sich auch für
- Concrete Technology for a Sustainable Development in the 21st Century93,99 €
- V M MalhotraPozzolanic and Cementitious Materials121,99 €
- Lucian C StaicuProduction of Colloidal Biogenic Selenium and Removal by Different Coagulation-Flocculation Approaches52,99 €
- Jon GudmundssonFlow Assurance Solids in Oil and Gas Production69,99 €
- Pierre-Claude AitcinBinders for Durable and Sustainable Concrete92,99 €
- Structured Catalysts and Reactors67,99 €
- Michael a CrabtreeThe Concise Industrial Flow Measurement Handbook69,99 €
-
-
-
Concrete Mixture Proportioning provides a comprehensive theory for the rational design of concrete mixtures. It allows the user to achieve an internationally applicable mastery of concrete material through the use of computer software.
Produktdetails
- Produktdetails
- Verlag: Taylor and Francis
- Seitenzahl: 448
- Erscheinungstermin: 12. Dezember 2019
- Englisch
- Abmessung: 234mm x 156mm x 23mm
- Gewicht: 612g
- ISBN-13: 9780367863562
- ISBN-10: 0367863561
- Artikelnr.: 58441791
- Verlag: Taylor and Francis
- Seitenzahl: 448
- Erscheinungstermin: 12. Dezember 2019
- Englisch
- Abmessung: 234mm x 156mm x 23mm
- Gewicht: 612g
- ISBN-13: 9780367863562
- ISBN-10: 0367863561
- Artikelnr.: 58441791
Francois De Larrard
1. Packing Density and Homogeneity of Granular Mixes 1.1. Virtual Packing
Density of a granular mix 1.2. Actual Packing Density - The Compressible
Packing Model (CPM) 1.3. Effect of Boundary Conditions on the Mean Packing
Density 1.4. Granular Mixes of Maximum Packing Density 1.5. Segregation of
Granular Mixes 1.6. Summary 2. Relationships Between Mix Composition and
Properties of Concrete 2.1. Fresh Concrete Properties 2.2. Adiabatic
Temperature Rise 2.3. Compressive Strength 2.4. Tensile Strength 2.5.
Deformability of Hardened Concrete 2.6. Factors Affecting Concrete
Permeability 2.7. Summary: the various types of granular system to be
considered in concrete mix design 3. Concrete Constituents: Relevant
Parameters 3.1. Aggregate 3.2. Cement 3.3. Mineral Admixtures
(supplementary cementitious materials) 3.4. Plasticizers/Superplasticizers
4. Mix-Design of Concrete 4.1. Specifying a Concrete for a Given
Application 4.2. Solution of the Mix-Design Problem 4.3. Questions relating
to the Aggregate Skeleton 4.4. Questions Relating to the Binders 4.5.
Stability of Concrete in an Industrial Process 4.6. Review of Some Standard
Methods in the Light of the Present Approach 5. Applications: Various
Concrete Families 5.1. Preliminary Simulations: From Normal-Strength to
Very High-Strength Concretes 5.2. Normal-Strength Structural Concrete 5.3.
High-Performance Concrete 5.4. Concretes with Special Placing Methods 5.5.
Concretes with Special Composition Conclusion Appendix: flowchart for
mixture simulation
Density of a granular mix 1.2. Actual Packing Density - The Compressible
Packing Model (CPM) 1.3. Effect of Boundary Conditions on the Mean Packing
Density 1.4. Granular Mixes of Maximum Packing Density 1.5. Segregation of
Granular Mixes 1.6. Summary 2. Relationships Between Mix Composition and
Properties of Concrete 2.1. Fresh Concrete Properties 2.2. Adiabatic
Temperature Rise 2.3. Compressive Strength 2.4. Tensile Strength 2.5.
Deformability of Hardened Concrete 2.6. Factors Affecting Concrete
Permeability 2.7. Summary: the various types of granular system to be
considered in concrete mix design 3. Concrete Constituents: Relevant
Parameters 3.1. Aggregate 3.2. Cement 3.3. Mineral Admixtures
(supplementary cementitious materials) 3.4. Plasticizers/Superplasticizers
4. Mix-Design of Concrete 4.1. Specifying a Concrete for a Given
Application 4.2. Solution of the Mix-Design Problem 4.3. Questions relating
to the Aggregate Skeleton 4.4. Questions Relating to the Binders 4.5.
Stability of Concrete in an Industrial Process 4.6. Review of Some Standard
Methods in the Light of the Present Approach 5. Applications: Various
Concrete Families 5.1. Preliminary Simulations: From Normal-Strength to
Very High-Strength Concretes 5.2. Normal-Strength Structural Concrete 5.3.
High-Performance Concrete 5.4. Concretes with Special Placing Methods 5.5.
Concretes with Special Composition Conclusion Appendix: flowchart for
mixture simulation
1. Packing Density and Homogeneity of Granular Mixes 1.1. Virtual Packing
Density of a granular mix 1.2. Actual Packing Density - The Compressible
Packing Model (CPM) 1.3. Effect of Boundary Conditions on the Mean Packing
Density 1.4. Granular Mixes of Maximum Packing Density 1.5. Segregation of
Granular Mixes 1.6. Summary 2. Relationships Between Mix Composition and
Properties of Concrete 2.1. Fresh Concrete Properties 2.2. Adiabatic
Temperature Rise 2.3. Compressive Strength 2.4. Tensile Strength 2.5.
Deformability of Hardened Concrete 2.6. Factors Affecting Concrete
Permeability 2.7. Summary: the various types of granular system to be
considered in concrete mix design 3. Concrete Constituents: Relevant
Parameters 3.1. Aggregate 3.2. Cement 3.3. Mineral Admixtures
(supplementary cementitious materials) 3.4. Plasticizers/Superplasticizers
4. Mix-Design of Concrete 4.1. Specifying a Concrete for a Given
Application 4.2. Solution of the Mix-Design Problem 4.3. Questions relating
to the Aggregate Skeleton 4.4. Questions Relating to the Binders 4.5.
Stability of Concrete in an Industrial Process 4.6. Review of Some Standard
Methods in the Light of the Present Approach 5. Applications: Various
Concrete Families 5.1. Preliminary Simulations: From Normal-Strength to
Very High-Strength Concretes 5.2. Normal-Strength Structural Concrete 5.3.
High-Performance Concrete 5.4. Concretes with Special Placing Methods 5.5.
Concretes with Special Composition Conclusion Appendix: flowchart for
mixture simulation
Density of a granular mix 1.2. Actual Packing Density - The Compressible
Packing Model (CPM) 1.3. Effect of Boundary Conditions on the Mean Packing
Density 1.4. Granular Mixes of Maximum Packing Density 1.5. Segregation of
Granular Mixes 1.6. Summary 2. Relationships Between Mix Composition and
Properties of Concrete 2.1. Fresh Concrete Properties 2.2. Adiabatic
Temperature Rise 2.3. Compressive Strength 2.4. Tensile Strength 2.5.
Deformability of Hardened Concrete 2.6. Factors Affecting Concrete
Permeability 2.7. Summary: the various types of granular system to be
considered in concrete mix design 3. Concrete Constituents: Relevant
Parameters 3.1. Aggregate 3.2. Cement 3.3. Mineral Admixtures
(supplementary cementitious materials) 3.4. Plasticizers/Superplasticizers
4. Mix-Design of Concrete 4.1. Specifying a Concrete for a Given
Application 4.2. Solution of the Mix-Design Problem 4.3. Questions relating
to the Aggregate Skeleton 4.4. Questions Relating to the Binders 4.5.
Stability of Concrete in an Industrial Process 4.6. Review of Some Standard
Methods in the Light of the Present Approach 5. Applications: Various
Concrete Families 5.1. Preliminary Simulations: From Normal-Strength to
Very High-Strength Concretes 5.2. Normal-Strength Structural Concrete 5.3.
High-Performance Concrete 5.4. Concretes with Special Placing Methods 5.5.
Concretes with Special Composition Conclusion Appendix: flowchart for
mixture simulation