This paper studied how the introduction of additive manufacturing (AM) in space applications impacts the design phases. Together with three manufacturers of space applications, the potential benefit as well as constraints are studied to identify design gaps. A literature survey is conducted to match the needs and following an analysis the impact on design practice is formulated. Results show the need to combine a wider design exploration capability, in combination with comparative modelling strategies
Additive Manufacturing (AM) has the potential to remove boundaries that traditional manufacturing p...
In recent years, reducing cost and lead time in product development and qualification has become dec...
In recent years, reducing cost and lead time in product development and qualification has become dec...
Products for space applications are traditionally costly and produced in small batches. Moreover, th...
Additive Manufacturing (AM) is a fast developing manufacturing technology that brings many opportuni...
With Additive Manufacturing (AM), manufacturing companies have the potential to develop more geometr...
The aim of this research is to further the understanding of implications for product development and...
Aerospace industry is showing increasing interest in the unique possibilities provided by advanced m...
Additive Manufacturing (AM) for space applications is no more only a very impressive and promising p...
The objective of this study is to investigate how additive manufacturing (AM) technologies may influ...
Additive manufacturing (AM), or 3D printing, is a collection of production processes that has receiv...
Additive manufacturing (AM) is becoming increasingly attractive for aerospace companies due to the f...
In order to enable space structures outside the typical envelopes of launch vehicle fairings and thu...
Function and constraints modelling are implemented to design two gridded ion thrusters for additive ...
Additive Manufacturing (AM) has the potential to remove boundaries that traditional manufacturing p...
In recent years, reducing cost and lead time in product development and qualification has become dec...
In recent years, reducing cost and lead time in product development and qualification has become dec...
Products for space applications are traditionally costly and produced in small batches. Moreover, th...
Additive Manufacturing (AM) is a fast developing manufacturing technology that brings many opportuni...
With Additive Manufacturing (AM), manufacturing companies have the potential to develop more geometr...
The aim of this research is to further the understanding of implications for product development and...
Aerospace industry is showing increasing interest in the unique possibilities provided by advanced m...
Additive Manufacturing (AM) for space applications is no more only a very impressive and promising p...
The objective of this study is to investigate how additive manufacturing (AM) technologies may influ...
Additive manufacturing (AM), or 3D printing, is a collection of production processes that has receiv...
Additive manufacturing (AM) is becoming increasingly attractive for aerospace companies due to the f...
In order to enable space structures outside the typical envelopes of launch vehicle fairings and thu...
Function and constraints modelling are implemented to design two gridded ion thrusters for additive ...
Additive Manufacturing (AM) has the potential to remove boundaries that traditional manufacturing p...
In recent years, reducing cost and lead time in product development and qualification has become dec...
In recent years, reducing cost and lead time in product development and qualification has become dec...