SBIR-STTR Award

Exploiting Microstructural Evolution for Material and Damage State Sensing
Award last edited on: 5/23/2007

Sponsored Program
STTR
Awarding Agency
DOD : AF
Total Award Amount
$98,942
Award Phase
1
Solicitation Topic Code
AF06-T037
Principal Investigator
Mustafa Kilic

Company Information

Adtech Systems Research Inc (AKA: Ad-Tech Systems Research Inc)

1342 North Fairfield Road
Beavercreek, OH 45432
   (937) 426-3329
   N/A
   N/A

Research Institution

----------

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2006
Phase I Amount
$98,942
The objective of this project is to develop a multi-purpose combination type optical fiber sensor that enables simultaneous sensing of microstructural evolutions in the sensor materials and the environmental conditions such as pressure and temperature. It is very well known that materials subjected to fatigue and high temperature will go through microstructural changes such as plastic deformation, grain coarsen, precipitation generation, phase transition, and surface roughening. While extensive researches have been conducted to develop non-destructive detection techniques to measure these microstructural changes using ultrasonic wave, most of these techniques excite acoustic wave in the service components directly and therefore require high power excitation sources and bulky detection units. To overcome these difficulties, the proposed sensor measures the microstructural changes of a sensor material that is subjected to the same operational conditions as the service components do. The microstructural evolution of the sensor material is then used to interrogate the damage state of the service components. The proposed sensor is a stand-alone sensor probe combining laser-acoustic, laser scattering, and optical fiber interferometric sensing techniques to measure the material microstructure. In addition to its capability to measure multiple physical parameters simultaneously, the optical fiber sensor also has the advantages of being compact, lightweight, remotely operational, capable of operating in harsh environments, and immune to electro-magnetic interference.

Keywords:
High Temperature Sensor, Microstructural Evolution, Fiber Optics Sensor

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
----
Phase II Amount
----