Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed under a deterministic flutter margin. Meeting this safety factor may result in overly-conservative structures, however, an alternative approach incorporates uncertainties into the computational models, and imposes a maximum allowable flutter probability during the optimization process. This technique is demonstrated for the variable-thickness design of an elastic panel subjected to supersonic flow. A performance measure approach based on the first -order reliability method incorporates probabilistic flutter constraints during the search for a minimum-mass panel. Optimization results are given for uncertainties in the panel\u27s boundary conditio...
This preliminary investigation introduces the use of the Regier number as a flutter constraint crite...
This work considers the aeroservoelastic optimization of a highly flexible transport aircraft wingbo...
An approach for conducting reliability-based design and optimization (RBDO) of a Boeing 767 raked wi...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...
An approach is presented for carrying out reliability-based design of a metallic, plate-like wing to...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
Several minimum-mass optimization problems are solved to evaluate the effectiveness of a variety of ...
The automated optimum design of airplane wing structures subjected to multiple behavior constraints ...
Criteria are presented for the prediction of panel flutter, determination of its occurrence, design ...
A simple structural model of an aircraft wing is used to show the effects of strength (stress) and f...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
A procedure for sizing an airframe for flutter-free performance is demonstrated on a large, flexible...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/143080/1/6.2017-4455.pd
The efficient design of aircraft structure involves a series of compromises among various engineerin...
An approach for computing worst-case flutter margins has been formulated in a robust stability frame...
This preliminary investigation introduces the use of the Regier number as a flutter constraint crite...
This work considers the aeroservoelastic optimization of a highly flexible transport aircraft wingbo...
An approach for conducting reliability-based design and optimization (RBDO) of a Boeing 767 raked wi...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...
An approach is presented for carrying out reliability-based design of a metallic, plate-like wing to...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
Several minimum-mass optimization problems are solved to evaluate the effectiveness of a variety of ...
The automated optimum design of airplane wing structures subjected to multiple behavior constraints ...
Criteria are presented for the prediction of panel flutter, determination of its occurrence, design ...
A simple structural model of an aircraft wing is used to show the effects of strength (stress) and f...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
A procedure for sizing an airframe for flutter-free performance is demonstrated on a large, flexible...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/143080/1/6.2017-4455.pd
The efficient design of aircraft structure involves a series of compromises among various engineerin...
An approach for computing worst-case flutter margins has been formulated in a robust stability frame...
This preliminary investigation introduces the use of the Regier number as a flutter constraint crite...
This work considers the aeroservoelastic optimization of a highly flexible transport aircraft wingbo...
An approach for conducting reliability-based design and optimization (RBDO) of a Boeing 767 raked wi...