Development and Characterization of Nano-Engineered Cement Based Composites for Sustainable Construction

用于可持续建筑的纳米工程水泥基复合材料的开发和表征

• 批准号: 479580-2015
• 负责人: Bindiganavile, Vivek
• 金额: $ 4.77万
• 依托单位: University of Alberta
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=580153
• 关键词: Development; Characterization; Nano; Engineered; Cement

The durability during service of cementitious materials plays an important role in their operation as construction materials. The parameters that determine performance are related intimately to the air-void network, stability of hydration products and the interfacial bond between various phases in the cement-based system. In addition, the production of a wide variety of specialized concretes requires tailoring their fresh and mature properties including, the rheology, permeability and crack growth resistance. Notwithstanding the evolution of admixtures and reinforcing materials, attempts have largely focused at macro-engineering of properties. Given that the building block of cement-based systems is at the nanometric scale, the emergence of nanotechnology now warrants a concerted focus on tailoring the physical and chemical properties of the cementitious system to suit each application. However, while some efforts to utilize nanomaterials in cementitious systems exist, they remain largely restricted to merely incorporating them as admixtures. Further, these attempts have centred on mechanical enhancement only. Recent work by the applicants highlights a tremendous potential for the use of tunable nanomaterials to engineer the physical and chemical properties of cementitious systems and thereby suitably tailor their fresh properties as well as long-term durability. Therefore, this proposal will develop and characterize cement-based composites that are nano-engineered to achieve superior performance, specifically in the Canadian context. Cellulosic and other nanomaterials will be firstly designed to impart precise characteristics in a high pH environment and subsequently introduced into the cement-based system. Through a series of examination on fresh and hardened properties, this proposal will develop and characterize a new generation of sustainable materials and develop durable mixes for construction.

胶凝材料在使用过程中的耐久性对其作为建筑材料的使用起着重要作用。决定性能的参数与水泥基体系中的空隙网络、水化产物的稳定性和各相之间的界面结合密切相关。此外，各种专用混凝土的生产需要定制其新鲜和成熟的性能，包括流变性、渗透性和抗裂纹扩展性。尽管外加剂和增强材料的发展，尝试主要集中在宏观工程的性质。鉴于水泥基系统的构建块是在纳米尺度，纳米技术的出现，现在保证了一致的重点是定制的水泥体系的物理和化学性质，以适应每一个应用。然而，虽然存在一些在水泥系统中利用纳米材料的努力，但它们在很大程度上仍然限于仅将它们作为外加剂掺入。此外，这些尝试仅集中在机械增强上。申请人最近的工作突出了使用可调纳米材料来设计水泥体系的物理和化学性质并由此适当地定制其新鲜性质以及长期耐久性的巨大潜力。因此，这项建议将开发和表征水泥基复合材料，纳米工程，以实现上级性能，特别是在加拿大的情况下。纤维素和其他纳米材料将首先被设计成在高pH环境中赋予精确的特性，随后被引入水泥基系统。通过对新材料和硬化材料性能的一系列测试，该提案将开发和表征新一代可持续材料，并开发耐用的建筑混合料。