《Stainless Steel Wires-Engineered Multifunctional Ultra-High Performance Concrete》是不锈钢微丝工程化多功能超高性能混凝土 (UHPC) 领域的首部英文专著 (由Taylor&Francis Group旗下CRC Press出版社出版) , 全书共包含四个部分共12章, 其中第一部分介绍了不锈钢微丝工程化多功能UHPC的基本设计原理和制备方法; 第二部分介绍了不锈钢微丝工程化多功能UHPC的基本力学、功能以及智能性能与相关本构模型; 第三部分介绍了基于不锈钢微丝工程化多功能UHPC衍生出的三种新型混凝土, 包括纳米填料与不锈钢微丝复合多功能UHPC、常规钢纤维与不锈钢微丝复合多功能UHPC、不锈钢微丝海水海砂多功能UHPC; 第四部分总结了面向可持续基础设施的不锈钢微丝工程化多功能UHPC研究中存在的问题和挑战以及未来的发展策略。不锈钢微丝工程化多功能UHPC巧妙利用混凝土与钢材材性互补的特点以实现工程材料的创新, 为构建更加安全、耐久、智能、韧性、环境友好的现代基础设施提供了新材料选择。该著作系统梳理了不锈钢微丝工程化多功能UHPC作为一种具有优异性能和巨大潜力的新型混凝土材料的原理以及技术优势, 旨在推动不锈钢微丝工程化多功能UHPC的研究与应用, 其可作为土木工程专业特别是混凝土材料与结构方向学生的学习教材, 也可为相关领域的研究者和工程师提供指导和参考。

Stainless Steel Wires-Engineered Multifunctional Ultra-High Performance Concrete, published by CRC Press, a publisher under Taylor & Francis, is the first English monograph in the field of stainless steel wires-engineered multifunctional ultra-high performance concrete (UHPC) . The whole monograph contains 4 parts comprising 12 chapters. The first part introduces the basic design principles and preparation methods of SSWs-engineered multifunctional UHPC. The second part provides a detailed introduction about the mechanical, functional, smart functionalities and multifunctional properties and related constitutive models of SSWs-engineered multifunctional UHPC. The third part presents three new types of concrete derived from SSWs-engineered multifunctional UHPC, including multifunctional UHPC with nanofillers and SSWs, multifunctional UHPC with conventional steel fibers and SSWs, and SSWs-engineered seawater-sea-sand multifunctional UHPC. The fourth part discusses the current challenges and strategies for SSWs-engineered multifunctional UHPC toward sustainable infrastructure. SSWs-engineered multifunctional UHPC ingeniously takes advantage of the complementary material properties of concrete and steel to achieve innovation, providing a new material option for safe, durable, resilient, smart and environmentally friendly infrastructures. This monograph systematically explores the principles and technical advantages of SSWs-engineered multifunctional UHPC as a new type of concrete with excellent performance and great potential, and aims to promote the research direction of SSWs-engineered multifunctional UHPC. This monograph can serve as a learning material for students majoring in civil engineering, especially in the field of concrete materials and structures, as well as provide guidance and reference for researchers and engineers in related fields.