IC2 to Exhibit and Present at AIAA SciTech 2017
January 5th, 2017 – IC² will be exhibiting and presenting a technical paper next week at AIAA SciTech 2017 in Grapevine, TX. In booth 203 of the expo hall, IC² will be featuring our new line of DirectShear Sensing Systems. Also, Dr. David Mills of IC² will be presenting a technical paper at the conference on some of the underlying technology.
IC2 Awarded NASA Contract to Develop Advanced Acoustic Liners for Aircraft Noise Reduction
June 29th, 2016 – IC² today announced that NASA has awarded the company a SBIR Phase I contract to to develop low profile, low frequency, adaptively-tuned acoustic liners for improved noise reduction in aircraft engines.
IC2 Awarded Follow On Contract – Dynamic Pressure Sensor Arrays
June 14th, 2016 – IC² today announced that NASA has awarded the company a SBIR Phase II follow-on contract to continue the development of miniaturized dynamic pressure sensor arrays with sub-millimeter (mm) spacing. In this new 2 year contract…
IC2 Wins Air Force P2 – Ultra-High Temp Optical Shear Stress Sensors
June 1st, 2016 – IC² today announced that the Air Force has recently awarded the company a new Phase II STTR contract to continue development work on a sapphire optical shear stress sensor for use in ultra-high temperature, high speed flows.
IC2 Awarded NASA SBIR Phase I – MEMS Dynamic Pressure Sensor Arrays
June 18th, 2015 – IC² today announced that NASA has awarded the company a new SBIR Phase I contract to develop miniaturized dynamic pressure sensor arrays with sub-millimeter (mm) spacing. The new technology enables high resolution measurements of cross-flow transition in swept-wing, supersonic aircraft research.
IC2 Successfully Concludes NASA Phase II Contract – MEMS Skin Friction Sensor
May 14th, 2015 – IC², a pioneer in the development of micro-electromechanical systems (MEMS) sensors for aerospace applications today announced the successful completion of a Phase II SBIR contract from NASA. The technology developed under this contract offers the unique capability to…