The subject of this book is civil engineering material and nanotechnology. Recent advances in nano-synthetic technologies and nanocomposite technologies as well as nano-surface modification technologies are driving the progressive exploitation of advanced nanomaterials. In view of their unique structures and mutual synergy, these advanced nanomaterials are expected to alleviate the dispersion issue of traditional nanomaterials in cement-based composites, improve their nanocomposite effectiveness and efficiency as well as impart new properties and functionalities to cement-based composites, thus boosting the development of new-generation cement-based nanocomposites. Based on the authors’ latest research accumulations and achievements, this book presents the fundamentals, fabrications, characterizations, performances and applications of the new-generation cement-based nanocomposites. It features numerous illustrations and data graphs as well as summary tables to visually describe the topics. This book is dedicated to students, researchers, scientists and engineers in the field of civil engineering materials and nanotechnology. The readers can find information on progress of civil engineering materials and nanotechnologies, cutting-edge research ideas and findings and practical guidance for developing sustainable and multifunctional cement-based nanocomposites.
Author(s): Siqi Ding, Xinyue Wang, Baoguo Han
Publisher: Springer
Year: 2023
Language: English
Pages: 310
City: Singapore
Foreword
Preface
Acknowledgements
Contents
About the Authors
1 Fundamentals of New-Generation Cement-Based Nanocomposites
1.1 Introduction
1.2 Fundamentals of Nanomaterials
1.2.1 Definition and Classification of Nanomaterials
1.2.2 Nano-Effect of Nanomaterials
1.2.3 Properties of Nanomaterials
1.2.4 Synthesis of Nanomaterials
1.2.5 Characterization of Nanomaterials
1.3 Brief Introduction of New-Generation Cement-Based Nanocomposites
1.4 Summary
References
2 New-Generation Cement-Based Nanocomposites with Helical CNT
2.1 Introduction
2.2 Preparation of Cement-Based Nanocomposites with Helical CNT
2.3 Mechanical Properties of Cement-Based Nanocomposites with Helical CNT
2.3.1 Compressive Strength
2.3.2 Flexural Strength
2.3.3 Impact Properties
2.3.4 Modification Mechanisms
2.4 Functional/Smart Properties of Cement-Based Nanocomposites with Helical CNT
2.4.1 Electrical Properties
2.4.2 Electromagnetic Shielding and Absorption Properties
2.5 Summary
References
3 New-Generation Cement-Based Nanocomposites with Nickel-Coated CNT
3.1 Introduction
3.2 Preparation of Cement-Based Nanocomposites with Nickel-Coated CNT
3.3 Mechanical Properties of Cement-Based Nanocomposites with Nickel-Coated CNT
3.3.1 Compressive Strength
3.3.2 Flexural Strength
3.3.3 Elastic Modulus and Poisson’s Ratio
3.3.4 Fatigue Properties
3.3.5 Impact Properties
3.3.6 Bond Properties
3.3.7 Modification Mechanisms
3.4 Functional/Smart Properties of Cement-Based Nanocomposites with Nickel-Coated CNT
3.4.1 Electrical Properties
3.4.2 Electromagnetic Shielding and Absorption Properties
3.5 Summary
References
4 New-Generation Cement-Based Nanocomposites with Nano SiO2-Coated TiO2
4.1 Introduction
4.2 Preparation of Cement-Based Nanocomposites with Nano SiO2-Coated TiO2
4.3 Rheology of Cement-Based Nanocomposites with Nano SiO2-Coated TiO2
4.4 Mechanical Properties/Performances of Cement-Based Nanocomposites with Nano SiO2-Coated TiO2
4.4.1 Compressive Strength
4.4.2 Flexural Strength
4.4.3 Fatigue Properties
4.4.4 Impact Properties
4.4.5 Bond Properties
4.4.6 Modification Mechanisms
4.5 Functional/Smart Properties of Cement-Based Nanocomposites with Nano SiO2-Coated TiO2
4.5.1 Self-Healing Properties
4.5.2 Electromagnetic Shielding and Absorption Properties
4.5.3 Anti-Sewage-Corrosion Properties
4.5.4 Anti-Seawater-Corrosion Properties
4.6 Summary
References
5 New-Generation Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/CNT
5.1 Introduction
5.2 Preparation of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/CNT
5.3 Mechanical Properties of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/CNT
5.3.1 Compressive Strength
5.3.2 Flexural Strength
5.3.3 Modification Mechanisms
5.4 Functional/Smart Properties of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/CNT
5.4.1 Electrical Properties
5.4.2 Self-Sensing Properties
5.4.3 Electromagnetic Shielding and Absorption Properties
5.5 Application of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/CNT
5.5.1 Application for Structural Health Monitoring
5.5.2 Application for Oil Well Infrastructure
5.6 Summary
References
6 New-Generation Cement-Based Nanocomposites with Electrostatic Self-Assembly TiO2/CNT
6.1 Introduction
6.2 Preparation of Cement-Based Nanocomposites with Electrostatic Self-Assembly TiO2/CNT
6.3 Mechanical Properties of Cement-Based Nanocomposites with Electrostatic Self-Assembly TiO2/CNT
6.3.1 Compressive Strength
6.3.2 Flexural Strength
6.3.3 Modification Mechanisms
6.4 Functional/Smart Properties of Cement-Based Nanocomposites with Electrostatic Self-Assembly TiO2/CNT
6.4.1 Electrical Properties
6.4.2 Self-Sensing Properties
6.4.3 Electromagnetic Shielding and Absorption Properties
6.5 Summary
References
7 New-Generation Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/GNP
7.1 Introduction
7.2 Preparation of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/GNP
7.3 Mechanical Properties of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/GNP
7.3.1 Compressive Strengths
7.3.2 Modification Mechanisms
7.4 Functional/Smart Properties of Cement-Based Nanocomposites with Electrostatic Self-Assembly NCB/GNP
7.4.1 Electrical Properties
7.4.2 Self-Sensing Properties
7.4.3 Electromagnetic Shielding and Absorption Properties
7.5 Summary
References
8 New-Generation Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.1 Introduction
8.2 Preparation of Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.3 Hydration of Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.4 Mechanical Properties of Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.5 Electrical Properties of Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.6 Self-Sensing Properties of Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.7 Application of Cement-Based Nanocomposites with In-Situ Grown CNT on Cement
8.8 Summary
References
9 New-Generation Cement-Based Nanocomposites with In-Situ Grown CNT on CF
9.1 Introduction
9.2 Preparation of Cement-Based Nanocomposites with In-Situ Grown CNT on CF
9.3 Mechanical Properties of Cement-Based Nanocomposites with In-Situ Grown CNT on CF
9.4 Electrical Properties of Cement-Based Nanocomposites with In-Situ Grown CNT on CF
9.5 Self-Sensing Properties of Cement-Based Nanocomposites with In-Situ Grown CNT on CF
9.6 Application of Cement-Based Nanocomposites with In-Situ Grown CNT on CF
9.7 Summary
References
10 Future Development and Challenges of New-Generation Cement-Based Nanocomposites
10.1 Introduction
10.2 Nanotoxicity
10.3 Cost and Scalable Manufacturing
10.4 Bridging Nanomaterials to Macroscale Cement-Based Nanocomposites
10.5 Summary
References
