Add to ORKGUnder a research program designated Design Analysis Methods for VIBrationS (DAMVIBS), existing analytical methods are used for calculating coupled rotor-fuselage vibrations of the AH-1G helicopter for correlation with flight test data from an AH-1G Operational Load Survey (OLS) test program. The analytical representation of the fuselage structure is based on a NASTRAN finite element model (FEM), which has been developed, extensively documented, and correlated with ground vibration test. One procedure that was used for predicting coupled rotor-fuselage vibrations using the advanced Rotorcraft Flight Simulation Program C81 and NASTRAN is summarized. Detailed descriptions of the analytical formulation of rotor dynamics equations, fuselage dyna...
Excessive vibration is one of the most prevalent technical obstacles encountered in the development ...
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
The NASA Langley Research Center in 1984 initiated a rotorcraft structural dynamics program, designa...
The AH-1G NASTRAN finite element model (FEM) is described and the correlations with measured data th...
The formulation and features of the Rotor-Airframe Comprehensive Analysis Program (RACAP) is describ...
Accurate vibration prediction for helicopter airframes is needed to 'fly from the drawing board' wit...
Mathematical models based on the finite element method of structural analysis, as embodied in the NA...
This paper presents a summary of some of the work performed by McDonnell Douglas Helicopter Company ...
Helicopter airframe vibration is examined using calculations and measurements for the SA349/2 resear...
Test data was provided for evaluating a mathematical vibration model of the Bell AH-1G helicopter ai...
Level flight airframe vibration at main rotor excitation frequencies was calculated. A NASTRAN tailb...
Mathematical models based on the finite element method of structural analysis as embodied in the NAS...
A NASA Langley-sponsored rotorcraft structural dynamics program, known as Design Analysis Methods fo...
The use of NASTRAN at Bell Helicopter Company for structural static and dynamic analysis of a helico...
The requirement for low vibrations has achieved the status of a critical design consideration in mod...
Excessive vibration is one of the most prevalent technical obstacles encountered in the development ...
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
The NASA Langley Research Center in 1984 initiated a rotorcraft structural dynamics program, designa...
The AH-1G NASTRAN finite element model (FEM) is described and the correlations with measured data th...
The formulation and features of the Rotor-Airframe Comprehensive Analysis Program (RACAP) is describ...
Accurate vibration prediction for helicopter airframes is needed to 'fly from the drawing board' wit...
Mathematical models based on the finite element method of structural analysis, as embodied in the NA...
This paper presents a summary of some of the work performed by McDonnell Douglas Helicopter Company ...
Helicopter airframe vibration is examined using calculations and measurements for the SA349/2 resear...
Test data was provided for evaluating a mathematical vibration model of the Bell AH-1G helicopter ai...
Level flight airframe vibration at main rotor excitation frequencies was calculated. A NASTRAN tailb...
Mathematical models based on the finite element method of structural analysis as embodied in the NAS...
A NASA Langley-sponsored rotorcraft structural dynamics program, known as Design Analysis Methods fo...
The use of NASTRAN at Bell Helicopter Company for structural static and dynamic analysis of a helico...
The requirement for low vibrations has achieved the status of a critical design consideration in mod...
Excessive vibration is one of the most prevalent technical obstacles encountered in the development ...
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
The NASA Langley Research Center in 1984 initiated a rotorcraft structural dynamics program, designa...