The design of launch pad structures, particularly those having a large area-to-mass ratio, is governed by launch-induced acoustics, a relatively short transient with random pressure amplitudes having a non-Gaussian distribution. The factors influencing the acoustic excitation and resulting structural responses are numerous and cannot be predicted precisely. Two solutions (probabilistic and deterministic) for the random vibration problem are presented in this article from the standpoint of their applicability to predict the response of ground structures exposed to rocket noise. Deficiencies of the probabilistic method, especially to predict response in the low-frequency range of launch transients (below 20 Hz), prompted the development of th...
Stochastic or random vibrations occur in a variety of applications of mechanicalengineering. Example...
The response of engineering structures is often sensitive to uncertainty in the system properties. T...
Reliable and efficient vibroacoustic loads prediction is often critical in structural design, yet it...
This paper presents a deterministic theory for the random vibration problem for predicting the respo...
Vibration environment estimation and prediction is required for the aerospace vehicle during the ini...
Finite element (FEM) and boundary element (BEM) methods are used extensively for simulating the beha...
Abstract During flight missions launch vehicles are subjected to a severe dynamic pressure loading ...
The purpose of this thesis is to study the failure prediction of structures subjected to random vibr...
Aerospace payloads, such as satellites, are subjected to vibroacoustic excitation during launch. San...
This study consists of an investigation into the nonstationary transient response of the Verificatio...
Predicting the response of a structure following an impact is of interest in situations where parts ...
The response of engineering structures is often sensitive to uncertainty in the system properties. B...
Determination of the stresses and displacements which occur in response to random excitations cannot...
The random vibration analysis of aircraft structural components is often performed with simplified t...
During liftoff of a launch vehicle, the acoustic pressure fluctuations caused by the engine exhaust ...
Stochastic or random vibrations occur in a variety of applications of mechanicalengineering. Example...
The response of engineering structures is often sensitive to uncertainty in the system properties. T...
Reliable and efficient vibroacoustic loads prediction is often critical in structural design, yet it...
This paper presents a deterministic theory for the random vibration problem for predicting the respo...
Vibration environment estimation and prediction is required for the aerospace vehicle during the ini...
Finite element (FEM) and boundary element (BEM) methods are used extensively for simulating the beha...
Abstract During flight missions launch vehicles are subjected to a severe dynamic pressure loading ...
The purpose of this thesis is to study the failure prediction of structures subjected to random vibr...
Aerospace payloads, such as satellites, are subjected to vibroacoustic excitation during launch. San...
This study consists of an investigation into the nonstationary transient response of the Verificatio...
Predicting the response of a structure following an impact is of interest in situations where parts ...
The response of engineering structures is often sensitive to uncertainty in the system properties. B...
Determination of the stresses and displacements which occur in response to random excitations cannot...
The random vibration analysis of aircraft structural components is often performed with simplified t...
During liftoff of a launch vehicle, the acoustic pressure fluctuations caused by the engine exhaust ...
Stochastic or random vibrations occur in a variety of applications of mechanicalengineering. Example...
The response of engineering structures is often sensitive to uncertainty in the system properties. T...
Reliable and efficient vibroacoustic loads prediction is often critical in structural design, yet it...