High Performance Concrete Optimal Composition Design 1st Edition by Leonid Dvorkin, Vadim Zhitkovsky, Oleh Bordiuzhenko, Yuri Ribakov 1000962865 9781000962864

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ISBN 10: 1000962865
ISBN 13: 9781000962864
Author: Leonid Dvorkin, Vadim Zhitkovsky, Oleh Bordiuzhenko, Yuri Ribakov

Concrete and reinforced concrete remain the main building materials for construction of modern fortifications. The book presents experimental and theoretical results allowing production of special high-strength rapid hardening concrete and fiber reinforced concrete. It describes a method for effective proportioning of high-strength fast-setting concrete and fiber reinforced concrete with high dynamic strength as well as selecting proper technological parameters, methodology for design of reinforced concrete structures using such concrete. Particular attention is paid to ensuring the early strengthening of concrete within 24 hours after casting and to constructing structures with limited energy resources at the site.

High Performance Concrete Optimal Composition Design 1st Table of contents:

Part I: High-strength Rapid-hardening Concrete

1. Theoretical Prerequisites

   • Influence of the Water-Cement Ratio
   • Water Demand and Workability
   • Effect of the Ratio of Concrete Aggregates
   • Influence of the Degree of Cement Hydration

2. Technological Ways for Producing High-strength Rapid-hardening Concrete

   • High-strength Cements
   • Aggregates for High-strength Concrete
   • Ways to Reduce W/C
   • Regulating the Hydration and Structure Formation Processes

3. Cement Concrete with High Early Strength

4. Experimental-statistical Models of Strength Parameters of High-strength Rapid-hardening Concrete (HSRHC)

5. Designing High-strength Concrete Compositions with Specified Values of Strength and Workability

6. Multi-parameter Design of High-strength Concrete Compositions

   • General Scheme for Solving Problems
   • Accounting for the Deformation Properties of Concrete
   • Accounting for Frost Resistance and Water Impermeability
   • Features of High-strength Concrete Composition Multi-parameter Design

Part II: High-strength Fibre-reinforced Concrete

7. The Influence of Dispersed Reinforcement Factors on the Strength Properties of Fibre-reinforced Concrete

   • Effect of Fibre Geometric Characteristics
   • Selection of the Optimal Steel Fibre Content
   • The Effect of Steel Fibres Addition Process into the Concrete Mixture
   • Improvement of Fibre-reinforced Concrete Properties by Fibre Orientation
   • The Ratio of Normal-weight and Fine-grained Fibre-reinforced Concrete Strength Parameters

8. Technological Properties of Fibre-reinforced Concrete Mixtures

   • Saving Properties of Fibre-reinforced Concrete Mixtures Over Time

9. Properties of Fibre Concrete Determining Its Durability

   • Voidness and Water Absorption
   • Shrinkage Deformations
   • Frost Resistance
   • Residual Flexural Strength

10. High-strength Fibre-reinforced Concrete with Composite Dispersed Reinforcement

• Effect of Metallic and Non-metallic Fibre Content and Ratio on Fibre-reinforced Concrete Strength
• The Influence of Composition Factors on Strength of Fine-grained Fibre-reinforced Concrete with Composite Dispersed Reinforcement

11. Dynamic Characteristics of Fibre-reinforced Concrete

• The Effect of Dispersed Reinforcement Factors on Impact Strength of Fibre-reinforced Concrete
• Impact Strength of Fibre-reinforced Concrete with Composite Dispersed Reinforcement

12. Design of High-strength Fibre-reinforced Concrete Compositions

• Fibre-reinforced Concrete Composition Design by the Nomographic Method
• Fibre-reinforced Concrete Composition Design According to the Minimum Cost Criterion

Conclusion

References

Index

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Leonid Dvorkin,Vadim Zhitkovsky,Oleh Bordiuzhenko,Yuri Ribakov,High Performance Concrete