Mechanics of the shape of thin strip with varying thickness. This project aims to develop an innovative technology for the production of thin strip with controlled varying longitudinal thickness and shape. The project will propose a new thin strip rolling theory and strip shape control strategy providing an improved understanding of the mechanics of manufacturing thin strips with varying longitudinal thickness. The technology to manufacture rolled products with varying thickness for lightweight ....Mechanics of the shape of thin strip with varying thickness. This project aims to develop an innovative technology for the production of thin strip with controlled varying longitudinal thickness and shape. The project will propose a new thin strip rolling theory and strip shape control strategy providing an improved understanding of the mechanics of manufacturing thin strips with varying longitudinal thickness. The technology to manufacture rolled products with varying thickness for lightweight structures is in significant demand for the automotive, aerospace and electronics industries to reduce weight through optimum strip thickness and minimum joints. The benefits will include reduced weight, fuel consumption and construction time of automobiles and aircraft when the developed novel thin strip products are used, and therefore reducing manufacturing costs and negative environmental impacts.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100527
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Novel high-performance copper-based materials via additive manufacturing. This project aims to develop novel high-performance copper-based materials produced by additive manufacturing for the electrification revolution, which will provide significantly higher mechanical performance, superior electrical and thermal properties and enable flexible complex shape options. Atomic-scale microstructural analysis using advanced microscopy techniques will reveal profound new insights into the process-stru ....Novel high-performance copper-based materials via additive manufacturing. This project aims to develop novel high-performance copper-based materials produced by additive manufacturing for the electrification revolution, which will provide significantly higher mechanical performance, superior electrical and thermal properties and enable flexible complex shape options. Atomic-scale microstructural analysis using advanced microscopy techniques will reveal profound new insights into the process-structure-property relationship. Expected outcomes include new understandings of the fundamental physics of new functional materials, eco-friendly products, and an ability to facilitate the increasingly widespread use of the copper-based materials for renewable electricity towards a more sustainable society and economy.Read moreRead less