Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental Spacecraft based on Nanosatellite Technology) and its main goal is to evaluate the utility of a nanosatellite mission for scientific and military purposes. As spacecraft developments demand the adaption of different subsystems for every mission, Fraunhofer EMI decided to use Additive Manufacturing (AM) in the construction of secondary satellite structures in order to achieve a highly adjusted structure which serves the exact required purpose of each individual mission. The significant advantage of using AM lies in the design freedom as it has almost no design restrictions as compared to conventional manufacturing methods. Given this, the des...
Additive Manufacturing (AM) technology has shown impressive new opportunities and convincing results...
Topology optimization is a powerful tool in lightweight design and has become increasingly popular w...
The investigation of additive manufacturing technology started in the 1980’s and over the previous f...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
One of the emerging technologies in recent years is additive manufacturing. It promises unprecedente...
One of the emerging technologies in recent years is additive manufacturing. It promises unprecedente...
Aerospace industry is showing increasing interest in the unique possibilities provided by advanced m...
A consortium of innovative experts in additive manufacturing (AM) comprising Northrup Grumman Techni...
Additive Manufacturing (AM) is a fast developing manufacturing technology that brings many opportuni...
Three case studies utilizing topology optimization and Additive Manufacturing for the development of...
In the frame of an ESA TRP project, our consortium has investigated the possibility to use advanced ...
Recent nanosatellite programs and studies of nanosatellites for operational missions have highlighte...
The investigation of additive manufacturing technology started in the 1980’s and over the previousfo...
The work focusses on the use of multidisciplinary optimization to design a cost optimized airborne n...
In this project, Additive Manufacturing techniques was used to develop a proof-of-concept space prop...
Additive Manufacturing (AM) technology has shown impressive new opportunities and convincing results...
Topology optimization is a powerful tool in lightweight design and has become increasingly popular w...
The investigation of additive manufacturing technology started in the 1980’s and over the previous f...
Fraunhofer EMI is currently designing a 12U nanosatellite. The mission is called ERNST (Experimental...
One of the emerging technologies in recent years is additive manufacturing. It promises unprecedente...
One of the emerging technologies in recent years is additive manufacturing. It promises unprecedente...
Aerospace industry is showing increasing interest in the unique possibilities provided by advanced m...
A consortium of innovative experts in additive manufacturing (AM) comprising Northrup Grumman Techni...
Additive Manufacturing (AM) is a fast developing manufacturing technology that brings many opportuni...
Three case studies utilizing topology optimization and Additive Manufacturing for the development of...
In the frame of an ESA TRP project, our consortium has investigated the possibility to use advanced ...
Recent nanosatellite programs and studies of nanosatellites for operational missions have highlighte...
The investigation of additive manufacturing technology started in the 1980’s and over the previousfo...
The work focusses on the use of multidisciplinary optimization to design a cost optimized airborne n...
In this project, Additive Manufacturing techniques was used to develop a proof-of-concept space prop...
Additive Manufacturing (AM) technology has shown impressive new opportunities and convincing results...
Topology optimization is a powerful tool in lightweight design and has become increasingly popular w...
The investigation of additive manufacturing technology started in the 1980’s and over the previous f...