A message from DMTC CEO, Dr. Mark Hodge
I am deeply saddened to convey the news that Professor George Collins passed away suddenly today.
George was the DVC-Research at Swinburne University, and was a frequent and welcome visitor to DMTC headquarters, just up the stairs from his office. Prior to his role at Swinburne, he was CEO of CAST CRC and head of the Materials Institute at ANSTO, both key DMTC partners. He was in fact, a foundation Director of DMTC and his positive, proactive attitude in all these and many other roles was an example and driving force to the entire DMTC community.
George was a great and dear friend to many of us personally and will be missed by so many people.
Of course his loss will be felt most keenly by his wife, children and family, and on behalf of the DMTC community, I pass on our sincere condolences at this sad time.
Sincerely
Mark Hodge
Posted by DMTC on November 15th, 2014 The Age Newspaper (11/11/14) has featured an article on the work undertaken by DMTC in developing a new ceramic armour plate to be used for personal defence. Recently this work was acknowledged by being awarded the National Industry Innovation Award from Land Defence. The article follows.
Preparing to defend
History is littered with examples of how new materials were developed initially for defensive applications. War and battle are incubators for ideas.
And according to Professor George Franks, an expert in the development of new materials from the Melbourne School of Engineering, it isn’t until times of peace that such ideas and materials are given domestic applications.
While there may be a relationship between war and innovation, (trying to stay alive is the ultimate motivator) the real test of the invention is the application it has in peacetime. Where would modern aviation be without radar?
Working with the Defence Materials Technology Centre (DMTC), Professor Franks, along with his team and collaborators recently won a National Industry Innovation Award from Land Defence Australia for a new ceramic armour plate to be used for personal defence.
DMTC develops and delivers new materials technologies and manufacturing processes to enhance Australia’s defence capability. This is a partnership between Defence, defence industries and research agencies.
Professor Franks says this collaboration was established to develop industry capabilities within Australia to supply our Defence Forces.
“This is the first manufacture of the ceramic vest component in Australia. Previously, Australian Defence Forces had to buy such products from Germany and the US,” he says.
“Our current industry partner is Australian Defence Apparel (ADA) in Bendigo. Opportunities to use this technology are also being discussed elsewhere in the sector.”
“ADA have produced 3000 jackets and have provided a boost to the local manufacturing industry as well as better protection to our diggers,” Professor Franks says.
New material development has meant a better product that is safe and lighter. Professor Franks explains how controlling the properties of the ‘paste’ resulted in Boron Carbide, a lighter material.
The researchers had to imagine a hard strong material that was still lightweight to offer soldiers security and mobility. The vest is backed by a polymer cover. The first bullet will hit and crack the vest but the material is contained by the backing polymer.
While designed to take three bullets, the hard ceramic armour is resistant to rifle shots and offers a higher level of protection than the run-of-the-mill polymer fibre bullet-proof vests you see police wearing on TV shows. The next part of the research will be about development of the curved sections to protect the shoulders and the helmet.
“Our next challenge is the making of more complicated shapes,” Professor Franks says.
Such new materials have other applications, including heat engines in aerospace components that allow us to travel at faster speeds. New materials that sustain higher temperatures will mean fuels will burn at a higher temperature and will produce energy more efficiently. Similar materials are also used to line processing equipment in the field of minerals mining, to make equipment resistant to abrasion.
Innovative materials being developed within DMTC also mean potential new products such as corrosion-resistant steels for ships, armour for bushmaster vehicles and new ways of making aerospace components for our jet fighters.
Professor Franks believes the creation of new materials is essential for new products and ideas. We need not imagine lightweight ceramic ball bearings that don’t rust or a ceramic foam that is damage tolerant. They are already here.
Read more
Posted by DMTC on November 11th, 2014 Over the past 12 months, DMTC has been conducting an Additive Manufacturing Benchmarking project sponsored by the Victorian Government through the Manufacturing Productivity Networking grant program. The aim of the project is to bridge the gap between technical capability and industry uptake in additive manufacturing. This workshop will give Victorian SMEs an appreciation of the additive manufacturing capability present within Victoria, but will also discuss the practical applications of these technologies through the results of the benchmarking project. Research partners will give an overview of additive manufacturing capabilities present within their organisations and industry partners in the project will discuss lessons learnt in designing, producing and machining parts produced through various additive manufacturing cutting edge techniques.
Click here to register
Key information:
Date: Thursday 30th October, 2014
Time: 09:30 – 12:30 (registration from 09:00)
Location: Level 27, 121 Exhibition St, Melbourne
A networking lunch to 1.30 will follow the workshop
Posted by DMTC on September 24th, 2014