Add to ORKGCarbon nanotube (CNT)-based sensors for structural health monitoring (SHM) can be embedded in structures of all geometries to monitor conditions both inside and at the surface of the structure to continuously sense changes. These CNTs can be manipulated into specific orientations to create small, powerful, and flexible sensors. One of the sensors is a highly flexible sensor for crack growth detection and strain field mapping that features a very dense and highly ordered array of single-walled CNTs. CNT structural health sensors can be mass-produced, are inexpensive, can be packaged in small sizes (0.5 micron(sup 2)), require less power than electronic or piezoelectric transducers, and produce less waste heat per square centimeter than elect...
The concept of lightweight design is to minimize the weight of a structure without compromising its ...
The development of embedded sensors based on a structural thermosetting epoxy resin reinforced with ...
This article describes research that investigated the ability of a carbon nanotube (CNT) sensor to d...
Single wall carbon nanotube (SWCNT)-based materials represent the future aerospace vehicle construct...
The United States is currently facing a national crisis with many of its vital civil infrastructures...
Civil structures and infrastructures are susceptible to degradation phenomena due to different loadi...
The next generation of cryogenic fuel tanks, crew habitats and other components for future spacecraf...
Carbon nanotubes (CNTs) can be utilized to replace Si as the pressure sensing element since they hav...
Over the past twenty years, many structural health monitoring strategies and damage detection techni...
Carbon nanotubes (CNTs) have become prominent smart materials due to their unique electrical, mechan...
Since their development in the early 1930’s, strain gauges have become an integral part of our lives...
The unique mechanical and electrical properties of carbon nanotubes represent a potential for develo...
Herein, we present a novel approach for damage sensing in adhesively bonded joints using a carbon na...
Most structures such as buildings, pipelines carrying natural gas, nuclear plant cooling tanks and s...
Progress is reported in an emerging non-contact strain sensing technology based on optical propertie...
The concept of lightweight design is to minimize the weight of a structure without compromising its ...
The development of embedded sensors based on a structural thermosetting epoxy resin reinforced with ...
This article describes research that investigated the ability of a carbon nanotube (CNT) sensor to d...
Single wall carbon nanotube (SWCNT)-based materials represent the future aerospace vehicle construct...
The United States is currently facing a national crisis with many of its vital civil infrastructures...
Civil structures and infrastructures are susceptible to degradation phenomena due to different loadi...
The next generation of cryogenic fuel tanks, crew habitats and other components for future spacecraf...
Carbon nanotubes (CNTs) can be utilized to replace Si as the pressure sensing element since they hav...
Over the past twenty years, many structural health monitoring strategies and damage detection techni...
Carbon nanotubes (CNTs) have become prominent smart materials due to their unique electrical, mechan...
Since their development in the early 1930’s, strain gauges have become an integral part of our lives...
The unique mechanical and electrical properties of carbon nanotubes represent a potential for develo...
Herein, we present a novel approach for damage sensing in adhesively bonded joints using a carbon na...
Most structures such as buildings, pipelines carrying natural gas, nuclear plant cooling tanks and s...
Progress is reported in an emerging non-contact strain sensing technology based on optical propertie...
The concept of lightweight design is to minimize the weight of a structure without compromising its ...
The development of embedded sensors based on a structural thermosetting epoxy resin reinforced with ...
This article describes research that investigated the ability of a carbon nanotube (CNT) sensor to d...