Hybrid additive manufacturing of critical metallic components. This project aims to combine world-class expertise and facilities to deliver on-demand and advanced alloy components produced by revolutionary hybrid additive manufacturing technology, along with applicable processing parameters and post-process schemes for fabricating high-performance metal products for space and aerospace applications. The intended outcomes of this project include the delivery of a knowledge platform for fabricatin ....Hybrid additive manufacturing of critical metallic components. This project aims to combine world-class expertise and facilities to deliver on-demand and advanced alloy components produced by revolutionary hybrid additive manufacturing technology, along with applicable processing parameters and post-process schemes for fabricating high-performance metal products for space and aerospace applications. The intended outcomes of this project include the delivery of a knowledge platform for fabricating alloy parts that have unprecedented high-temperature mechanical properties and environmental performance and providing significant benefits for the industry partner to establish its international portfolio of high-profit products.Read moreRead less
Additive Manufacturing of Nanotwinned Titanium Alloys for Critical Use. The project aims to use 3D printing technology to create new titanium alloy components that are substantially lighter and stronger than current versions and therefore highly relevant for high temperature and stress uses in leading-edge industries such as aeroplane manufacture. The project expects to create new means to strengthen and improve the resilience of the commercial alloys’ microstructure with unprecedented in-servic ....Additive Manufacturing of Nanotwinned Titanium Alloys for Critical Use. The project aims to use 3D printing technology to create new titanium alloy components that are substantially lighter and stronger than current versions and therefore highly relevant for high temperature and stress uses in leading-edge industries such as aeroplane manufacture. The project expects to create new means to strengthen and improve the resilience of the commercial alloys’ microstructure with unprecedented in-service performance and thereby substantially broaden the industrial adoptions of 3D-printed products. This should also provide significant cost and environmental benefits and enhance Australia’s international standing in cutting-edge research on advanced manufacturing and materials.Read moreRead less