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High pressure water jet cutting and stripping (1991)

Babai, Majid K. ; Hoppe, David T.

In: CASI

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Publication Date: 2013-08-31

Description: High pressure water cutting techniques have a wide range of applications to the American space effort. Hydroblasting techniques are commonly used during the refurbishment of the reusable solid rocket motors. The process can be controlled to strip a thermal protective ablator without incurring any damage to the painted surface underneath by using a variation of possible parameters. Hydroblasting is a technique which is easily automated. Automation removes personnel from the hostile environment of the high pressure water. Computer controlled robots can perform the same task in a fraction of the time that would be required by manual operation.

Keywords: MECHANICAL ENGINEERING

Type: National Aeronautics and Space Administration, Technology 2000, Volume 1; p 214-220

Format: application/pdf

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Design of a hydraulic actuator for active control of rotating machinery (1991)

Rashidi, Majid ; Dirusso, Eliseo

In: Other Sources

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Publication Date: 2019-06-28

Description: A hydraulic actuator is described which consists of a pump, a hydraulic servo-valve, and a thin elastic plate which transduces the generated pressure variations into forces acting on a mass which simulates the bearing of a rotor system. An actuator characteristic number is defined to provide a base for an optimum design of force actuators with combined weight, frequency, and force considerations. This characteristic number may also be used to compare hydraulic and electromagnetic force actuators. In tests, this actuator generated 182.3 Newton force at a frequency of 100 Hz and a displacement amplitude of 5.8 x 10 exp -5 meter.

Keywords: MECHANICAL ENGINEERING

Type: ASME PAPER 91-GT-246

Format: text

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Vibration Analysis of a Split Path Gearbox (1995)

Rashidi, Majid ; Krantz, Timothy L.

In: CASI

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Publication Date: 2019-07-13

Description: Split path gearboxes can be attractive alternatives to the common planetary designs for rotorcraft, but because they have seen little use, they are relatively high risk designs. To help reduce the risk of fielding a rotorcraft with a split path gearbox, the vibration and dynamic characteristics of such a gearbox were studied. A mathematical model was developed by using the Lagrangian method, and it was applied to study the effect of three design variables on the natural frequencies and vibration energy of the gearbox. The first design variable, shaft angle, had little influence on the natural frequencies. The second variable, mesh phasing, had a strong effect on the levels of vibration energy, with phase angles of 0 deg and 180 deg producing low vibration levels. The third design variable, the stiffness of the shafts connecting the spur gears to the helical pinions, strongly influenced the natural frequencies of some of the vibration modes, including two of the dominant modes. We found that, to achieve the lowest level of vibration energy, the natural frequencies of these two dominant modes should be less than those of the main excitation sources.

Keywords: MECHANICAL ENGINEERING

Type: NASA-TM-106875 , E-9498 , NAS 1.15:106875 , ARL-TR-723 , AIAA PAPER 95-3048 , Joint Propulsion Conference; Jul 10, 1995 - Jul 12, 1995; San Diego, CA; United States

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Dynamics of a split torque helicopter transmission (1992)

Krantz, Timothy ; Rashidi, Majid

In: CASI

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Publication Date: 2019-07-13

Description: A high reduction ratio split torque gear train has been proposed as an alternative to a planetary configuration for the final stage of a helicopter transmission. A split torque design allows a high ratio of power-to-weight for the transmission. The design studied in this work includes a pivoting beam that acts to balance thrust loads produced by the helical gear meshes in each of two parallel power paths. When the thrust loads are balanced, the torque is split evenly. A mathematical model was developed to study the dynamics of the system. The effects of time varying gear mesh stiffness, static transmission errors, and flexible bearing supports are included in the model. The model was demonstrated with a test case. Results show that although the gearbox has a symmetric configuration, the simulated dynamic behavior of the first and second compound gears are not the same. Also, results show that shaft location and mesh stiffness tuning are significant design parameters that influence the motions of the system.

Keywords: MECHANICAL ENGINEERING

Type: NASA-TM-105681 , E-7060 , AVSCOM-TR-91-C-043 , NAS 1.15:105681 , AD-A257375 , International Power Transmission and Gearing Conference; Sep 13, 1992 - Sep 16, 1992; Scottsdale, AZ; United States

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