China3D printingNet July 10, MSC Software Corporation (MSC), a California computer-aided engineering (CAE) and simulation software developer, has signed an agreement with RMIT University.
RMIT University’s advanced manufacturing area is headquartered in Melbourne and will use MSC’s Simufact Additive to research and develop metal additive manufacturing processes. The partnership hopes to help accelerate the use of additive manufacturing in Australia.
“RMIT’s advanced manufacturing area is leading the way in shaping the future of additive manufacturing locally through breakthrough research,” said Sridhar Dharmarajan, managing director of MSC Software’s Indo-Pacific region.
“Therefore, we are very pleased to note that some of the best additive manufacturers in the future will have the opportunity to work with MSC Software’s Simufact Additives and learn about them before starting their careers.”
The car hood hinge next to the simulation created on Simufact additive. The image passes through the MSC software.
MSC’s Simufact software is divided into three versions: Simufact Forming, Simufact Welding and Simufact Additive. The latter is designed to simulate the laser powder bed fusion (PBF) additive manufacturing process, deformation prediction and FEA analysis.
Recently, BAE Systems acquired Simufact Additive software to reduce3D printingConstruction test of metal aerospace parts. Prior to this, the software was selected by the European Organization for Nuclear Research (CERN) to help with selective laser melting (SLM)3D printingThe application of the process.
Dr. Hendrik Schafstall, Managing Director and CEO of Simufact, explained the functions of the software. He said: “The functions of Simufact Additive range from generative design to topology optimization, to process simulation and post-processing. This allows people to generate perfect adaptations. Optimized components for operating conditions and ensure3D printingThe machine can successfully generate the generated design. “
Simufacto additive simulation of additives.Edited via Simufact Engineering on YouTube
RMIT University and Industrial Additive Manufacturing
Research by the Royal Melbourne Institute of Technology (RMIT University) shows that the metal additive manufacturing industry has made great progress. At the end of last year, Professor Milan Brandt, Technical Director of the Advanced Manufacturing Zone of RMIT University, began to implement a laser metal deposition project to reduce the operating costs of maintenance, repair and overhaul related to the Australian Defence Force.right
In adopting Simufact software, Professor Brandt explained: “Our vision is to be the leader of Australia’s next wave of manufacturing implementations. To this end, we believe in working closely with the best people in the industry in Australia and internationally; The world trains the next generation of engineers, designers and technicians.”
RMIT’s laser metal deposition equipment.Photo from RMIT University
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