Add to ORKGUnder this research project we will develop an innovative structural health monitoring system for inflatable space habitat structures by integrating nanocomposite piezoresistive sensors Inflatable structures for space habitats are highly prone to damage caused by micrometeoroid and orbital debris impacts. Although the structures are effectively shielded against these impacts through multiple layers of impact resistant materials, there is a necessity for a health monitoring system to monitor the structural integrity and damage state within the structures. Assessment of damage is critical for the safety of personnel in the habitat, as well as predicting the repair needs and the remaining useful life of the habitat. We are developing a uniqu...
Damage detection in hybrid fiber reinforced composites containing fully-integrated aligned carbon na...
The use of composite structures in the space domain has increased significantly over the past years ...
NASA has identified potential damage from micrometeoroid and orbital debris (MMOD) impacts as a prim...
Human missions require an integrated and reliable set of systems to safely and efficiently live and ...
According to NASA, there exists more than 100 million pieces of Micrometeoroids and Orbital Debris (...
NASA and industry are developing inflatable, crewed space structures for large-scale habitats for in...
Our built environment is replete with engineered structural systems (e.g., civil infrastructure, aut...
Our built environment is replete with engineered structural systems (e.g., civil infrastructure, aut...
The human exploration of non-Earth planets is the Pillars of Hercules of the contemporary era. Indee...
Inflatable space structures technology is part of an emerging technology that could potentially revo...
Space exploration is a cornerstone of American engineering and science. With the pivotal first moon ...
Space exploration is a cornerstone of American engineering and science. With the pivotal first moon ...
Current options for Lunar habitat architecture include inflatable habitats and airlocks. Inflatable ...
The damage detection sensory system is an intelligent damage detection skin that can be embedded int...
Inflatable/deployable structures are under consideration for applications as varied as expansion mod...
Damage detection in hybrid fiber reinforced composites containing fully-integrated aligned carbon na...
The use of composite structures in the space domain has increased significantly over the past years ...
NASA has identified potential damage from micrometeoroid and orbital debris (MMOD) impacts as a prim...
Human missions require an integrated and reliable set of systems to safely and efficiently live and ...
According to NASA, there exists more than 100 million pieces of Micrometeoroids and Orbital Debris (...
NASA and industry are developing inflatable, crewed space structures for large-scale habitats for in...
Our built environment is replete with engineered structural systems (e.g., civil infrastructure, aut...
Our built environment is replete with engineered structural systems (e.g., civil infrastructure, aut...
The human exploration of non-Earth planets is the Pillars of Hercules of the contemporary era. Indee...
Inflatable space structures technology is part of an emerging technology that could potentially revo...
Space exploration is a cornerstone of American engineering and science. With the pivotal first moon ...
Space exploration is a cornerstone of American engineering and science. With the pivotal first moon ...
Current options for Lunar habitat architecture include inflatable habitats and airlocks. Inflatable ...
The damage detection sensory system is an intelligent damage detection skin that can be embedded int...
Inflatable/deployable structures are under consideration for applications as varied as expansion mod...
Damage detection in hybrid fiber reinforced composites containing fully-integrated aligned carbon na...
The use of composite structures in the space domain has increased significantly over the past years ...
NASA has identified potential damage from micrometeoroid and orbital debris (MMOD) impacts as a prim...