Theoretical models were developed capable of predicting structural response and noise transmission to random point mechanical loads. Fiber reinforced composite and aluminum materials were considered. Cylindrical shells and circular plates were taken as typical representatives of structural components for space station habitability modules. Analytical formulations include double wall and single wall constructions. Pressurized and unpressurized models were considered. Parametric studies were conducted to determine the effect on structural response and noise transmission due to fiber orientation, point load location, damping in the core and the main load carrying structure, pressurization, interior acoustic absorption, etc. These analytical mo...
The interaction of airborne and structureborne noise radiated by aircraft materials was examined. Th...
The response of reusable space shuttle insulation panels to random acoustic pressure fields are stud...
Acoustic modeling can be used to identify key noise sources, determine/analyze sub-allocated require...
The related literature was reviewed and a preliminary analytical model was developed for simplified ...
Analytical models and computer programs for structural response calculations under action of mechani...
Fatigue and response to noise of aircraft and spacecraft viscoelastic panels, shell structure, and p...
This paper presents a deterministic theory for the random vibration problem for predicting the respo...
Internal loads and stresses caused by space vehicle vibration resulting from induced or natural envi...
An analytical model is presented to predict noise transmission through elastic plates into a hard-wa...
Reported here is the capability of the Energy Finite Element Method (E-FEM) to predict the vibro-aco...
Study analyzes structural vibrations and the interactions between them and sound fields. It outlines...
Calculation methods for vibration responses of spacecraft structural members to acoustic field
Tests were conducted in the launch phase simulator test facility, with the Orbiting Geophysical Obse...
Measured vibration response of residential structures excited by mechanical and acoustical loading
The objectives are: measurement of dynamic properties of acoustical foams and incorporation of these...
The interaction of airborne and structureborne noise radiated by aircraft materials was examined. Th...
The response of reusable space shuttle insulation panels to random acoustic pressure fields are stud...
Acoustic modeling can be used to identify key noise sources, determine/analyze sub-allocated require...
The related literature was reviewed and a preliminary analytical model was developed for simplified ...
Analytical models and computer programs for structural response calculations under action of mechani...
Fatigue and response to noise of aircraft and spacecraft viscoelastic panels, shell structure, and p...
This paper presents a deterministic theory for the random vibration problem for predicting the respo...
Internal loads and stresses caused by space vehicle vibration resulting from induced or natural envi...
An analytical model is presented to predict noise transmission through elastic plates into a hard-wa...
Reported here is the capability of the Energy Finite Element Method (E-FEM) to predict the vibro-aco...
Study analyzes structural vibrations and the interactions between them and sound fields. It outlines...
Calculation methods for vibration responses of spacecraft structural members to acoustic field
Tests were conducted in the launch phase simulator test facility, with the Orbiting Geophysical Obse...
Measured vibration response of residential structures excited by mechanical and acoustical loading
The objectives are: measurement of dynamic properties of acoustical foams and incorporation of these...
The interaction of airborne and structureborne noise radiated by aircraft materials was examined. Th...
The response of reusable space shuttle insulation panels to random acoustic pressure fields are stud...
Acoustic modeling can be used to identify key noise sources, determine/analyze sub-allocated require...