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High-Tech Concrete Materials: Design, Preparation, and Applications [Kõva köide]

(Wuhan University of Technology, China), (Wuhan University of Technology, China)
  • Formaat: Hardback, 384 pages, kõrgus x laius: 244x170 mm
  • Sari: Advanced Chemical Products and Materials
  • Ilmumisaeg: 22-Apr-2026
  • Kirjastus: Blackwell Verlag GmbH
  • ISBN-10: 3527353550
  • ISBN-13: 9783527353552
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High-Tech Concrete Materials: Design, Preparation, and ApplicationsSuurem pilt
  • Formaat: Hardback, 384 pages, kõrgus x laius: 244x170 mm
  • Sari: Advanced Chemical Products and Materials
  • Ilmumisaeg: 22-Apr-2026
  • Kirjastus: Blackwell Verlag GmbH
  • ISBN-10: 3527353550
  • ISBN-13: 9783527353552
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9783527353552.html
A comprehensive treatment of high-tech concrete materials across research, engineering, and industrial practice

Concrete materials research has entered a transformative era, where technological innovation and advanced material science converge to redefine structural and functional performance. High-Tech Concrete Materials: Design, Preparation, and Applications addresses the pressing need for a systematic framework that integrates high-performance concrete design with cutting-edge preparation methods and sustainable application strategies.

In-depth chapters cover a wide spectrum of innovations, including the microstructural optimization of ultra-high-strength concretes, the durability preservation of ultra-high-performance concretes, composite structural concretes applied in mega-infrastructure projects, and pioneering methods such as CO2-driven 3D printing concrete. Richly supported with case studies, patents, and engineering applications, the book highlights how academic insights translate into real-world performance.

High-Tech Concrete Materials: Design, Preparation, and Applications:





Provides thorough coverage of raw material design, structural performance enhancement, and sustainability strategies Features detailed discussion of innovative admixtures, polymers, nano-seeding technologies, and fiber reinforcement mechanisms Offers insight into microstructural optimization and durability preservation for ultra-high-strength and ultra-high-performance concretes Establishes an approach that emphasizes multifunctional, eco-sustainable concrete systems for future development

Designed to provide readers with both conceptual clarity and practical guidance, High-Tech Concrete Materials: Design, Preparation, and Applications is ideal for advanced undergraduate and graduate courses in Materials Science, Civil Engineering, Construction Engineering, and Inorganic Chemistry, particularly within degree programs focused on structural materials and sustainable infrastructure. It is also a vital reference for researchers, materials scientists, and industry professionals engaged in high-performance concrete design and application.
Preface xv
About the Book xvii

1 Introduction 1
1.1 Overview 1
1.2 Brief History of High-tech Concrete Development 2
1.3 Challenges and Opportunities for Concrete Materials 10
1.4 Technical Characteristics and Research Content of High-tech Concrete 11

2 Cementitious Material for High-tech Concrete 17
2.1 Characteristics of High-tech Concrete 17
2.2 Types of Cementitious Materials for High-tech Concrete 19
2.3 Mechanism and Properties of Cementitious Materials for High-tech Concrete
27
2.4 Prospects for Design and Development of Composite Cementitious Materials
54

3 Functional Materials for High-tech Concrete 59
3.1 Concrete Admixtures 59
3.2 Polymer Materials 67
3.3 Fiber Material 74
3.4 Ultra-fine Powder 77
3.5 Nano-seeds 81
3.6 Internal Curing Functional Materials 85
3.7 Functional Aggregates 101

4 Ultra-high-strength Concrete 119
4.1 Macro-defect Free Cement 119
4.2 Densified System Containing Homogeneously Arranged Ultrafine Particles
122
4.3 Compact Reinforced Composite 124
4.4 Reactive Powder Concrete 127
4.5 Reinforcement Mechanism of Ultra-high-strength Cementitious Composite
131

5 Ultra-high-performance Concrete 141
5.1 Overview of Ultra-high-performance Concrete 141
5.2 Design of Ultra-high-performance Concrete 144
5.3 Physical and Mechanical Properties of Ultra-high-performance Concrete
(UHPC) 155
5.4 Volumetric Stability of Ultra-high-performance Concrete 169
5.5 Durability Properties of Ultra-high-performance Concrete 183
5.6 Novel Ultra-high-performance Concrete 190
5.7 Application of Ultra-high-performance Concrete for Municipal Solid Waste
Pre-treatment Plants 199

6 High-performance Composite Structural Concrete 207
6.1 Concrete-filled Steel Tubes Combination Material 207
6.2 Steel-concrete/Asphalt Composite Bridge Deck Paving Structural Materials
234
6.3 Composite Materials for Structural/Functional Tunnel Concrete 264
6.4 High-strength Lightweight Aggregate Concrete 296

7 Novel Functional Concrete Technologies 339
7.1 Recyclable Cement and Concrete 339
7.2 Resin Aggregate Concrete 344
7.3 CO2-driven 3D Printing Concrete 353

Index 363
Fazhou Wang is Professor of Materials Science and Director of the State Key Laboratory of Silicate Materials for Architectures at Wuhan University of Technology, China. His research focuses on high-performance cement-based materials and their engineering applications. He has received two National Science and Technology Progress Awards and multiple provincial-level awards.



Shuguang Hu is Chief Professor of Materials Science at Wuhan University of Technology, China. Formerly Dean of the School of Materials Science and Engineering and Deputy Director of the State Key Laboratory of Silicate Building Materials, he has led teaching and research in advanced cement-based materials for 40 years. His work has earned numerous national awards, including the National Technological Invention Award and multiple National Science and Technology Progress Awards.