Five work packages (WPs) were undertaken through the project, which is elaborated as follows.
Month 1 - Month 24
WP1: Overall training-through-research.
In this WP, extensive training activities have been carried out by the Fellow to reinforce his knowledge in the areas of materials science, chemistry, physics, and civil engineering. In addition, microstructure characterization, physical modeling, performance predictions, and industrial applications have been developed through the project. Meanwhile, through the project, the Fellow also reinforced his capability of project management, communication, and social skills, especially how to handle the collision between academia and pragmatic applications.
Main Outcome: A well-trained researcher who has competitive academic knowledge and management skills along with practical perspectives.
Month 1 - Month 11
WP2: Preparing mono-dispersed hollow nanostructured materials, which are compatible with construction materials, in a facile, cost-effective, and environmentally friendly process.
In this WP, mono-dispersed hollow nanostructured materials which are compatible with cement were successfully manufactured in a facile, cost-effective, and environmentally friendly process. For this project, the production methods have been systematically investigated and improved to precisely control the size and the wall thickness of hollow nanostructured materials by aligning the reaction time and concentration of the raw materials.
Main Outcome: One paper is under review now.
Month 6 - Month 16
WP3: Implementing hollow nanostructured materials in infrastructure materials and developing a theoretical model to predict the durability of the nano-modified concrete.
This WP presents a comparative result to investigate the impacts of CaCl2 along with F/T and W/D cycles on the durability of concrete products modified with nano SiO2 and nano Al2O3. It was found, after the F/T and W/D cycles in a CaCl2 solution, although colloidal precipitates will be formed and the dense microstructure of the cement paste will be damaged, the addition of nanoparticles is beneficial to remain the dense structure of the cement paste.
Main Outcomes: One paper has been published, and another one is prepared for submission.
Month 13 - Month 20
WP4: Elucidate the modification mechanisms through the microstructure analysis of the modified concrete materials.
The Fellow presented High-resolution Transparent Electron Microscopy (HRTEM) images of the interface between the hierarchically hollow structured nanoparticles and the hydration products of the cement paste. It can be claimed, that the hierarchically hollow-structured nanoparticles can act as a reservoir, which provides a constant water resource and is beneficial to release the crystallization pressure of the hydration product.
Main Outcomes: A lecture is going to be presented at the 15th Pacific RIM Conference of Ceramic Societies, and one paper has been prepared for submission.
Month 15 - Month 24
WP5: Industry applications and feedback.
The Fellow focused on implementing the hierarchically hollow structured nanoparticles in manufacturing low-carbon cementitious materials. The research network was induced through the industry placement in the industry partner institutions.
Main Outcomes: Two papers were published and one has been under reviewing process.
Overview:
Through this project, the Fellow gained competitive academic knowledge and management skills, published three journal papers, and organized several workshops to disseminate the research findings. In addition, there are three peer-review journal papers are under review, and one paper is prepared for submission.