The applications of Additive Manufacturing have significantly increased in many industrial areas, including crucial fields such as aerospace. A case study is presented in this paper: A metal functional panel for multi-mission modular satellite platform has been redesigned: namely, specific actions have been taken to allow the manufacturability of the component via laser powder-bed fusion, based on the general principle of topological optimization and the peculiar constraints of the selected technology for manufacturing. The effectiveness of the building process has been preliminarily validated by a numerical simulation and pre-production printing of representative samples of the panel. Post-processing of the final component has also been di...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
Additive Manufacturing (AM) offers high potential due to its freedom of design for structural parts...
Topology optimization is an optimization method that employs mathematical tools to optimize material...
The applications of Additive Manufacturing have significantly increased in many industrial areas, in...
Three case studies utilizing topology optimization and Additive Manufacturing for the development of...
Topology optimization is a powerful tool in lightweight design and has become increasingly popular w...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
The design of high-precision motion stages, which must exhibit high dynamic performance, is a challe...
International audienceIn Additive Manufacturing (AM), a main material and a support material can be ...
Additive manufacturing (AM) processes enable the production of functional parts with complex geometr...
Low product weight in combination with high mechanical properties play a crucial role in reducing op...
Aerospace industry is showing increasing interest in the unique possibilities provided by advanced m...
This study investigates the application of topological optimization in conjunction with additive ma...
Freedoms in material choice based on combinatorial design, different directions of process optimizat...
Purpose: Additive manufacturing (AM) offers potential solutions when conventional manufacturing reac...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
Additive Manufacturing (AM) offers high potential due to its freedom of design for structural parts...
Topology optimization is an optimization method that employs mathematical tools to optimize material...
The applications of Additive Manufacturing have significantly increased in many industrial areas, in...
Three case studies utilizing topology optimization and Additive Manufacturing for the development of...
Topology optimization is a powerful tool in lightweight design and has become increasingly popular w...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
The design of high-precision motion stages, which must exhibit high dynamic performance, is a challe...
International audienceIn Additive Manufacturing (AM), a main material and a support material can be ...
Additive manufacturing (AM) processes enable the production of functional parts with complex geometr...
Low product weight in combination with high mechanical properties play a crucial role in reducing op...
Aerospace industry is showing increasing interest in the unique possibilities provided by advanced m...
This study investigates the application of topological optimization in conjunction with additive ma...
Freedoms in material choice based on combinatorial design, different directions of process optimizat...
Purpose: Additive manufacturing (AM) offers potential solutions when conventional manufacturing reac...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
Additive Manufacturing (AM) offers high potential due to its freedom of design for structural parts...
Topology optimization is an optimization method that employs mathematical tools to optimize material...