Research Project
Research Project
Developing high strength Al-Zn-Mg alloys by thermomechanical treatments
Abstract For the first time, the formation and impact of (Al, Zn)3Zr precipitates in Al-Zn-Mg-Cu alloys post-heat treatment was detailed, offering new insights into mechanical property enhancement through these discoveries. In addition, research introduces grain boundary deposition engineering as a novel method to develop aluminium alloys with specific precipitate types and mechanical properties
Research Project
High-Entropy Alloy Development
Abstract We reported the creation of novel high-entropy alloys, characterized by its lightweight nature and good mechanical properties, this is through compositional design and thermomechanical treatment marking a significant advancement for the automotive and aerospace industries. Partners University of Science and Technology Beijing, Oak Rideg National Laboratories
Research Project
Harnessing Coffee Waste for Green Corrosion Prevention and Circular Economy
Abstract The project focuses on reusing coffee waste to create a sustainable solution for corrosion prevention. Through advanced extraction methods, we harness the natural properties of coffee waste to develop a green corrosion inhibitor, offering a renewable and eco-friendly alternative for industries worldwide. By transforming coffee waste into a valuable resource, we aim to reduce environmental
Research Project
Bio-inspired Soft Robot for Monitoring Coral Reefs
Abstract Coral reefs play a crucial role in supporting a quarter of all aquatic life, but their existence is now threatened by ongoing climate changes. Our project aims to develop an underwater soft robot that can mimic the morphology and shape of actual marine creatures and to imitate their swimming motion. This robot can play a critical role as monitoring platform to understand the reefs
Research Project
Green Homes for a Sustainable Tomorrow: Advancing Energy Efficiency and Eco-Materials in Residential Buildings
Abstract This project aims to promote sustainable aspects in residential buildings, with a specific focus on energy efficiency and environmentally friendly materials. By implementing innovative strategies and technologies, the project seeks to optimize energy consumption, reduce carbon footprint, and enhance overall sustainability in homes. Additionally, the project emphasizes the use of eco
Research Project
Advancing Sustainable Construction: Exploring Alternative Adhesives for Environmentally Friendly Building Materials
Abstract This project project focuses on the development of environmentally friendly and sustainable construction materials, with a specific emphasis on exploring alternative options for synthetic formaldehyde adhesives. By replacing conventional adhesives with eco-friendly alternatives, the project aims to mitigate the adverse environmental effects associated with construction activities. The
Research Project
Assessing Environmental Sustainability: Life Cycle Assessment of Cotton Stalk Utilization for Wood Composites, Bioethanol, and Biogas Production
Abstract The project employs rigorous life cycle assessment methodologies, including Ecological Footprint, Impact 2002+, Global Warming Damage Potential, and more, to evaluate the environmental impact of each process. This project compares the utilization of cotton stalks for wood composites, bioethanol, and biogas production. Through life cycle assessment, the project shows that bioethanol has a
Research Project
AI-Driven technologies for plastic waste management in marine environments: Biodegradation of PET and advanced detection technologies
Abstract Plastic waste is a major global environmental challenge, particularly in marine habitats. This project focuses on two critical aspects: the biodegradation of polyethylene terephthalate (PET) and the utilization of artificial intelligence (AI) technologies for detecting marine plastics. It explores the microbial breakdown of PET and waste management options. The project also highlights the
Research Project
Fungus-Based Wood Composites: Mitigating Climate Change through Sustainable Utilization of Agricultural Waste
Abstract This project focuses on addressing the significant contribution of agricultural waste burning to - global warming and climate change. By utilizing fungus as a binding element, a sustainable wood composite is being developed. The chosen fungus for this project is Aspergillus niger, which is grown and applied to cotton stalks and pulverized wood under specific conditions that induce