A novel solution to reducing cavitation wear in hydraulic systems. New coatings will be created which provide exceptional resistance to cavitation corrosion in hydraulic units. This project will enable the implementation of a novel regenerative drive unit for heavy vehicles and reduced fuel consumption. Innovative new coatings of shape memory alloy and diamond like carbon will be developed.
Reducing the environmental impact of passenger vehicles by the design of lightweight alloy components. There are approximately a billion passenger vehicles in the world and the number is growing each year. The reduction in vehicle weight is therefore critical as it is one of the major contributors to both fuel consumption and carbon dioxide emissions. A major challenge for the automotive industry is to address this problem by replacing high density materials with lighter weight materials with co ....Reducing the environmental impact of passenger vehicles by the design of lightweight alloy components. There are approximately a billion passenger vehicles in the world and the number is growing each year. The reduction in vehicle weight is therefore critical as it is one of the major contributors to both fuel consumption and carbon dioxide emissions. A major challenge for the automotive industry is to address this problem by replacing high density materials with lighter weight materials with comparable properties. The aim is to design new lightweight aluminium alloys with the desired properties to replace existing high density steel fasteners in vehicles. It is expected that the new components aim to reduce the total weight of a standard car by at least 20kg; this would be a significant achievement in the eyes of automotive manufacturers.Read moreRead less