Verification Studies on Hypersonic Structure Thermal/Acoustic Response and Life Prediction Methods

Abstract: Boeing and United States Air Force Research Lab (AFRL) have conducted a research program to study current production structural analysis methods for use in hypersonic vehicle design and analysis. The focus was to identify, verify and quantify knowledge gaps in understandings of design environment, high temperature material behavior, and analysis approach in the prediction of structural response and life of hypersonic structures. Phase I of the program identified these knowledge gaps by performing thermal and s… Show more

“…The thermal load caused by aerodynamic heating changes the structural stiffness and alters the structural dynamic behaviors [2]. Recent developments in aerospace engineering [3,4] have heightened the need for broadband vibration analysis of thin-walled structures under thermal load. Therefore, it is essential to develop efficient simulation techniques that are able to accurately predict the broadband dynamic response of thin-walled structures under thermal load.…”

The dynamic bending analysis of plates under thermal load using an efficient wave-based method

“…The thermal load caused by aerodynamic heating changes the structural stiffness and alters the structural dynamic behaviors [2]. Recent developments in aerospace engineering [3,4] have heightened the need for broadband vibration analysis of thin-walled structures under thermal load. Therefore, it is essential to develop efficient simulation techniques that are able to accurately predict the broadband dynamic response of thin-walled structures under thermal load.…”

The dynamic bending analysis of plates under thermal load using an efficient wave-based method

Using NNMs to Evaluate Reduced Order Models of Curved Beam

Effective mitigation of the thermal short and expansion mismatch effects of an integrated thermal protection system through topology optimization