. The proposed innovative research will provide an advanced stochastic framework for developing an integrated risk-based condition assessment and life prediction-analysis system for a cost effective maintenance system for aircraft components. Corrosionfatigue is a key damage mechanism. Based on the… More

By exploiting the unique properties of single-crystal peizoceramic, STI will develop a new class of device for suppression of structural vibration. The proposed device, a frequency agile vibration absorber (FAVA), will be compact, robust, and demandminimal power for operation. Unlike today's… More

"The proposed project will address the engine mission statistical modeling at the needed level of detail. Special attention will be given to the key mission aspects that influence the vibratory stresses in engine components and may produce their HCFfailure. The proposed research will provide the… More

In this Phase II SBIR project, STI Technologies will team with APES Inc., with strong support from Lockheed-Martin Co. and Boeing Phantom Works, to develop an advanced predictive technology for USAF aging aircraft components subjected to corrosion-fatigue.The proposed work combines state-of-art… More

In this Phase II SBIR project, STI Technologies will team with APES Inc., with strong support from Lockheed-Martin Co. and Boeing Phantom Works, to develop an advanced predictive technology for USAF aging aircraft components subjected to corrosion-fatigue.The proposed work combines state-of-art… More

This research focuses on fully developing energy density sensors that will yield a significant benefit both for measurements of interest to NASA, as well as for general acoustic measurements. Previous research has developed prototype energy density sensors. The Phase I research will focus on… More

This research focuses on fully developing energy density sensors that will yield a significant benefit both for measurements of interest to NASA, as well as for general acoustic measurements. Previous research has developed prototype energy density sensors. The Phase I research focused on developing… More