The effort undertaken by Boeing Defense Space Group, Helicopters Division, to conduct the Advanced Rotorcraft Transmission (A.R.T.) program is summarized in this report. This program was structured to incorporate key emerging material and component technologies into an advanced rotorcraft transmission with the intent of making significant improvements in the state of the art The specific objectives of this program are 25 percent reduction in weight, lO-dB reduction in noise, and a 5,000 hour MTBR rotorcraft transmission. All of these objectives were attained. Boeing concentrated its work on high-gain and comparatively high risk technologies that could demonstrate the program objectives before full scale aircraft development Component development testing was conducted to evaluate high risk concepts before finalizing the advanced transmission configuration. Some of the advanced technology component tests conducted included hybrid bearings, bidirectional tapered roller bearings, precision net forged gears, active noise cancellation, titanium gears, HCRNIV tooth form spur gears, and noise reduction by variations in contact ratio and tooth form. The results of these tests are provided in this report. Trade studies conducted under this contract indicated that applying the A.R.T. drive system to a new aircraft design will have a great impact on aircraft gross weight and engine power rating requirements, in addition to a significant effect on the acquisition and operating costs of the aircraf. Potential cost savings of more than $300 million on a production run of 600 TTR aircraft or approximately half a million dollars cost reduction per aircraft could be realized.
Advanced Rotorcraft Transmission Program (ART) (Final Report, May 1988-September 1993)
1995
570 pages
Report
No indication
English
Aircraft , Aircraft equipment , Transmissions(Mechanical) , Military requirements , Risk , Acquisition , Low costs , State of the art , Forging , Maintainability , Helicopters , Configurations , Precision , Weight , Drives , Lightweight , Titanium , Roller bearings , Taper , Noise reduction , Savings , Gears , Rotary wing aircraft , Gear teeth , Art(Advanced rotocraft transmission) , Mtbf(Mean time between failure)
Advanced Rotorcraft Transmission Program
NTIS | 1990
|Advanced rotorcraft transmission program
NTRS | 1990
|Advanced Rotorcraft Transmission Program
NTRS | 1990
|Advanced Rotorcraft Transmission Program
NTIS | 1990
|