Siemens and Sonaca secure additive manufacturing contract from ESA


Siemens and Sonaca give birth to secured a contract from the European Space Agency (ESA) to develop aerospace make-up applications for metal additive manufacturing.

Both companies will idle on the framework of the Design4AM project to enhance the Siemens Digital Innovation Principles for the industrialisation of additive manufacturing in the aerospace industry.

It integrates generative constructing, topology optimisation, predictive analytics, process simulation, build preparation and work execution.

Sonaca will use its expertise in space applications, manufacturing properties, material and process, testing and numerical methods for the chain validation.

The ESA and the Belgian Federal System Policy Office are providing financial support for the project, which is wait for to result in validated process for the design and production of lightweight space implies optimised for performance and cost.

Engineers can explore a range of design concepts in an automated closed-loop make using Siemens’ NX software and Simcenter software. The process considers mechanic performance, manufacturing process and operation cost needs.

Sonaca Blank BU general manager Pedro Romero Fernandez said: “With our cunning aerospace knowledge and Siemens’ software technologies such as generative organize, automated topology optimisation and additive manufacturing process simulation, engineers liking be able to explore hundreds of design options in a fraction of the normal on many occasions, then virtually test them against a variety of physical conditions to prosper at the best design solution for their performance requirements that 3D-print correctly the premier time.”

The Design4AM contract is carried out under the ESA’s general support technology summary.

Siemens said additive manufacturing is a key tool for the space industry due to its proficiency to meet structural and multi-disciplinary needs for space applications at a much belittle weight compared to conventional space structures made via traditional inventing methods.

The company noted that additive manufacturing techniques can be utilised to lightweight wellnigh any kind of complex structure in launchers, propulsion, satellites and several spacecraft components.

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