Advanced Intramedullary Nailing Systems. The proposed project is aimed at developing advanced orthopaedic implants (intramedullary nails and associated locking screws) commonly used for bone fracture repair. These new generation metallic implants will be developed using a comprehensive research approach centred on physico-chemical and mechanical properties investigations. A new generation of intramedullary nailing systems with superior design and mechanical properties (small diameter and high st ....Advanced Intramedullary Nailing Systems. The proposed project is aimed at developing advanced orthopaedic implants (intramedullary nails and associated locking screws) commonly used for bone fracture repair. These new generation metallic implants will be developed using a comprehensive research approach centred on physico-chemical and mechanical properties investigations. A new generation of intramedullary nailing systems with superior design and mechanical properties (small diameter and high strength) and improved bone fixation is the key expected outcome. The knowledge generated in the project is expected to lead to the growth of the Industry Partner (Austofix). Training of a world class researcher in the multidisciplinary field of biomaterials will be an additional outcome.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100136
Funder
Australian Research Council
Funding Amount
$557,389.00
Summary
Large-volume, multi-use micro-computed tomography. This project aims to augment the existing X-ray micro-computed tomography (CT) scanning capabilities in South Australia and Australia by introducing a large-volume micro-CT scanner. This will enable three-dimensional scanning of large and heavy samples including whole machine parts, limbs/segments, prosthesis devices, large animals and vertebrates, fossils and plant root systems. The project expects to allow experimental testing rigs to be plac ....Large-volume, multi-use micro-computed tomography. This project aims to augment the existing X-ray micro-computed tomography (CT) scanning capabilities in South Australia and Australia by introducing a large-volume micro-CT scanner. This will enable three-dimensional scanning of large and heavy samples including whole machine parts, limbs/segments, prosthesis devices, large animals and vertebrates, fossils and plant root systems. The project expects to allow experimental testing rigs to be placed inside the scanner to test samples, such as mechanical testing of femurs or medical devices, while scanning, to study the structure-function relationships. This will build unlimited computer simulations of mechanical tests, valuable for precious specimens. Benefits will include aiding in risk reduction, decision making on products and a higher quality workforce.Read moreRead less