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Defence Materials Technology Centre (DMTC)

Welding and joining play a key role in the fabrication of all defence platforms and in an attempt to progressively improve performance, capability and availability it is likely that new challenges will arise in the joining technology area. In particular higher strength materials and lighter weight structures are likely to be used. As the strength of the materials increase the weldability issues can dictate whether the fabrication is feasible and what procedural constraints are imposed

Overview

As the strength of the materials increase the weldability issues can dictate whether the fabrication is feasible and what procedural constraints are imposed. In addition the requirement for improved productivity and sustainable manufacture in Australia mean that advanced welding processes and manufacturing technologies must be evaluated. Weldability and process technology are inextricably linked; for example high thermal intensity processes such as laser welding allow significant increases in speed, reduction of heat input and lower distortion but the risk of hydrogen assisted cold cracking (HACC) in high strength steels may be increased. By the same token the use of high preheat levels to combat HACC may damage heat affected zone properties and can be counter-productive when robotic welding is employed. As a result some of the key welding research areas which are being tackled within the DMTC program are:

  • The weldability and subsequent performance of high strength structural steels for ships
  • The weldability and performance of existing and alternative armour materials
  • Advanced welding processes for improved productivity
  • Lean automation of air platforms
  • Lean automation and robotic welding for land and marine platforms
  • Welding repair and reclamation of marine components

A good example of the coordinated approach to these issues is the investigation of future armour requirements and manufacturing technology for the land vehicles such as the various armoured personnel carriers manufactured by Thales in Bendigo. The research, which is based at the University of Wollongong involves a team including Thales, DSTO, ANSTO, Bluescope Steel and Bisalloy. The armour materials currently used include quenched and tempered steels and welding technologies are integral to defining and improving the ballistic and blast protection offered to operational personnel. In order to determine the limits of weldability of these and potentially higher grade steels it is necessary to understand the basic metallurgy and the effects of welding thermal cycles in candidate welding processes.

The research team is therefore conducting basic studies to assess the transformation behaviour of the materials. This involves welding trials to establish actual thermal cycles and thermo mechanical simulation.A Gleeble 3500 thermo mechanical simulator is being employed to explore the effect of the complete range of welding variables on the material properties. In order to understand the likely effect of welding; the transformation behaviour of the candidate steels needs to be mapped and dilatometric studies are underway to produce this basic data. In parallel and conjunction with these weldability studies various high productivity process options; such as laser-GMAW hybrid and tandem GMAW techniques are being evaluated. Whilst conventional robotic welding of long production runs is well established and Thales has already embarked on robotic welding implementation, recent developments in lean manufacturing and off line programming may extend the application of such techniques to more specialised short runs. The team are therefore evaluating off line programming, simulation and integrated design and production techniques for the land platforms as well as marine structures. This activity also involves the construction of a technology demonstration cell at the University of Wollongong incorporating state of the art welding and robotic hardware and associated software.

Similar studies are in hand for marine and air platforms with an emphasis on addressing future defence capability needs. Although specifically aimed at defence the research is also expected to have spin offs in other manufacturing applications.

It is important to recognise that the research is multi disciplinary and a holistic approach is essential to ensure that practical solutions which balance the weldability, productivity and performance are achieved. The collaborative model involving a range of research and industry partners is the ideal way to meet these goals.

For further information visit the DMTC website


Research Projects

The University of Wollongong are heavily involved in the following projects:

  • DMTC 1.3 Lean automation for airframes
  • DMTC 2.1 Development and qualification of higher strength steels for defence applications
  • DMTC 2.2 Surface processing technologies for repair and improved performance of submarine and surface ship components
  • DMTC 2.4 Lean automation technology for advanced manufacturing of marine defence components and assemblies
  • DMTC 3.1 Evaluation of vehicle armour requirements and development of improved systems and manufacturing techniques
  • DMTC 3.2 Alternative 'next generation' ferritic armour system for vehicles
  • DMTC 3.4 Assessment of feasibility and design of alternative construction and protection systems for land platforms
  • DMTC 3.5 Robot assisted jigging and welding using an intelligent multifunctional robot attachment (end-effector) and online calibration

Leadership in defence materials leads to prestigious award

Stephen van Duin awarded prestigious DMTC collaboration award. For embodying the spirit of collaboration and leadership, UOW Associate Professor Stephen van Duin was this week recognised by the Defence Materials Technology Centre (DMTC) at their annual awards ceremony. Established in 2008, the DMTC is a multi-partner collaborative research centre aimed at providing the defence industry ...

Lab meets industry in welding solutions start-up

Research that has been providing solutions for Australian-built defence equipment is being adapted to meet the needs of small and medium manufacturing enterprises. RoboMotion, a start-up company at the University of Wollongong (UOW) business incubator iAccelerate, is developing smart software to generate robotic welding programs for industry.

DMTC Awards for Excellence announced

Professor Huijun Li from the Faculty of Engineering and Information Sciences at the University of Wollongong won the Project Leadership Award at the recent Defence Materials Technology Centre Annual Conference. Professor Li was recognised for his excellence in project leadership for his project titled 'Evaluation of keyhole TIG welding on high hardness steels'.

Contact us

For more information please contact:

Dr Stephen Van Duin
Faculty of Engineering & Information Sciences
Tel: (02) 4221 3420
Fax: (02) 4221 5731
Email: svanduin@uow.edu.au

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