Outgassing or thruster’s generated contaminants are critical for optical surfaces and optical payloads because scientific measurements and, in general, the performances can be degraded or jeopardized by uncontrolled contamination. This is a well-known issue in space technology that is demonstrated by the growing usage of quartz crystal microbalances as a solution for measuring material outgassing properties data and characterizing the on-orbit contamination environment. Operation in space requires compatibility with critical requirements, especially the mechanical and thermal environments to be faced throughout the mission. This work provides the design of a holding structure based on 3D printing technology conceived to meet the environment...
Robotic and mechatronic systems are particularly sensitive regarding their thermal environment. The ...
A consortium of innovative experts in additive manufacturing (AM) comprising Northrup Grumman Techni...
In this case study, an integrated approach for the design and fabrication of a titanium (Ti) panel t...
Outgassing or thruster’s generated contaminants are critical for optical surfaces and optical payloa...
This work describes the design of a holder for a quartz crystal microbalance for space application. ...
This work focuses on the thermo-mechanical design of the microbalance used for the VISTA (Volatile I...
This work focuses on the thermo-mechanical design of the microbalance used for the VISTA (Volatile I...
The aim of this work is a technical review about Quartz Crystal Microbalance (QCM) sensors used in s...
This work focuses on the study of high-temperature microbalances to be used in space, exploring the ...
Solar cells in space can be damaged by orbital debris or by a spacecraft\u27s malfunction or failure...
Quartz crystal microbalances have been used as measuring and monitoring devices for particle deposit...
Demand and development in the space industry are conditioning more costeffective satellites without ...
In 2014, NASA, in partnership with Made In Space, Inc., launched the first 3D printer to the Interna...
Robotic and mechatronic systems are particularly sensitive regarding their thermal environment. The ...
A consortium of innovative experts in additive manufacturing (AM) comprising Northrup Grumman Techni...
In this case study, an integrated approach for the design and fabrication of a titanium (Ti) panel t...
Outgassing or thruster’s generated contaminants are critical for optical surfaces and optical payloa...
This work describes the design of a holder for a quartz crystal microbalance for space application. ...
This work focuses on the thermo-mechanical design of the microbalance used for the VISTA (Volatile I...
This work focuses on the thermo-mechanical design of the microbalance used for the VISTA (Volatile I...
The aim of this work is a technical review about Quartz Crystal Microbalance (QCM) sensors used in s...
This work focuses on the study of high-temperature microbalances to be used in space, exploring the ...
Solar cells in space can be damaged by orbital debris or by a spacecraft\u27s malfunction or failure...
Quartz crystal microbalances have been used as measuring and monitoring devices for particle deposit...
Demand and development in the space industry are conditioning more costeffective satellites without ...
In 2014, NASA, in partnership with Made In Space, Inc., launched the first 3D printer to the Interna...
Robotic and mechatronic systems are particularly sensitive regarding their thermal environment. The ...
A consortium of innovative experts in additive manufacturing (AM) comprising Northrup Grumman Techni...
In this case study, an integrated approach for the design and fabrication of a titanium (Ti) panel t...