Add to ORKGNew materials and structures for advanced aerospace, marine and transportation applications demand the development of sensing and control systems which are capable of optimizing structural properties in response to particular external disturbances. Optical fiber sensors embedded in such structures may be used as life cycle sensors to monitor the way in which the composites and metal structures are fabricated, the in-service lifetime performance conditions of the material, and the onset of material degradation due to a variety of causes including fatigue and impact damag
Due to the high reliability requirements in aerospace components a test campaign to qualify composit...
Re-entry in planetary atmospheres is one of the most challenging environments to be faced by an aero...
The objective of the current program is to develop techniques for using optical fibers to monitor th...
New materials and structures for advanced aerospace, marine and transportation applications demand t...
New materials and structures for advanced aerospace, marine and transportation applications demand t...
Embedding optical fibers into structural components is a very promising technology for real time hea...
The most interesting metallic materials for high temperature applications are Nickel base superalloy...
The general objective of the funded research effort has been the development of discrete and distrib...
Metal embedding of fibre optical sensors provides new possibilities in structural monitoring. The em...
The desired static performance and dynamic adaptability of advanced structural materials demands the...
Embedding optical fiber sensors within laminar thermoplastic composite material results in forming a...
Composite materials offer tremendous benefits for engineering applications and arc now specified for...
Optical fibers, besides its primary use in information technology, can be also used as sensors as we...
The main objective of the present research is to explore the use of optical fibers as sensors that c...
Structurally integrated fiber optic sensors hold the promise of improved quality control of composit...
Due to the high reliability requirements in aerospace components a test campaign to qualify composit...
Re-entry in planetary atmospheres is one of the most challenging environments to be faced by an aero...
The objective of the current program is to develop techniques for using optical fibers to monitor th...
New materials and structures for advanced aerospace, marine and transportation applications demand t...
New materials and structures for advanced aerospace, marine and transportation applications demand t...
Embedding optical fibers into structural components is a very promising technology for real time hea...
The most interesting metallic materials for high temperature applications are Nickel base superalloy...
The general objective of the funded research effort has been the development of discrete and distrib...
Metal embedding of fibre optical sensors provides new possibilities in structural monitoring. The em...
The desired static performance and dynamic adaptability of advanced structural materials demands the...
Embedding optical fiber sensors within laminar thermoplastic composite material results in forming a...
Composite materials offer tremendous benefits for engineering applications and arc now specified for...
Optical fibers, besides its primary use in information technology, can be also used as sensors as we...
The main objective of the present research is to explore the use of optical fibers as sensors that c...
Structurally integrated fiber optic sensors hold the promise of improved quality control of composit...
Due to the high reliability requirements in aerospace components a test campaign to qualify composit...
Re-entry in planetary atmospheres is one of the most challenging environments to be faced by an aero...
The objective of the current program is to develop techniques for using optical fibers to monitor th...