The effect of flexible appendages on shaft whirl stability

Wilgen, Francis Joseph.

January 1977

Thesis--Wisconsin. / Vita. Includes bibliographical references (leaves 108-110).

Shafting.

The determination of stiffness coefficients for stepped shafts

Young, Warren C.

January 1956

Thesis (Ph. D.)--University of Wisconsin--Madison, 1956. / Typescript. Abstracted in Dissertation abstracts, v. 16 (1956) no. 10, p. 1875. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 76-77).

Shafting.

Cyclic stresses in marine propeller shafting

Johnson, William James

January 1949

This project constitutes an attempt to confirm the existence and determine the magnitude of cyclic bending stresses thought to be the cause of many of the tailshaft failures in the "Victory" type freighters. Tests with the stern third of a 1/22 scale model hull supported in a testing tank were relied upon to obtain the desired results. Because the maximum water speed through the tank was only one foot per second the experimental results obtained could not be applied to the prototype. At this water velocity, however, it was shown that the type or angle of the rudder has little effect on the bending stresses in the tailshaft and that the bending stresses when the propeller is "breaking water" (ship running light) are about 2½ times as great as when the propeller is fully submerged (ship at full-load draft). The experimental technique developed in this project may be used to advantage in future research on stress determination in tailshafts of ship models. / Applied Science, Faculty of / Mechanical Engineering, Department of / Graduate

Shafting

Propellers

The analysis and synthesis of stepped shafts using an interactive approach.

Flinner, Victor J.

January 1982

Thesis (M.S.)--Ohio State University. / Includes bibliographical references. Available online via OhioLINK's ETD Center

Shafting. Machine design.

Behavior of a cracked shaft during passage through a critical speed /

Andruet, Raul Horacio,

January 1991

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1991. / Vita. Abstract. Includes bibliographical references (leaves 143-145). Also available via the Internet.

Shafting Cranks and crankshafts.

Response of a cracked rotating shaft with a disk during passage through a critical speed /

Suherman, Surjani,

January 1992

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 149-153). Also available via the Internet.

Critical phenomena (Physics) Shafting

Some aspects of whirling vibrations of shafts

Marples, Vernon

January 1964

No description available.

Shafting ; Rotational motion

Methodology of evaluation of in-service loads applied to the output shafts of automatic transmissions.

Ilic, Slobodan, Mechanical & Manufacturing Engineering, Faculty of Engineering, UNSW

January 2006

This work presents a novel methodology for evaluation of in service loads applied to the output shafts of automatic transmissions. It also presents a novel methodology of data reduction for shaft load signals as an alternative to the cycle counting methods. Current durability testing of automatic transmission output shafts uses 50 000 stall torque cycles from zero to wide open throttle. In the majority of cases, these requirements lead to an over design that can result in an unnecessarily bulky transmission system. As a solution to this problem a novel methodology for evaluation of loads applied to the output shafts of automatic transmissions was developed. The methodology is based on real world loading conditions and therefore leads to a more realistic estimation of the fatigue life of shafts. The methodology can be used as a tool for shaft optimisation in different drive conditions. Using the developed methodology the effects of different road conditions on the fatigue life of a transmission output shaft were compared. Four routes having differing driving conditions were investigated and of those routes, the route with most stop-start events resulted in the greatest reduction in fatigue life. A novel methodology of data reduction for shaft load signals was also developed. The methodology is based on knowledge of the bandwidth and dynamic range of the expected in-service load signal. This novel methodology allows significant reduction of the volume of data to be acquired. It preserves the time sequence of peaks and valleys of the signal, which is vital in the case of fatigue analysis. This is in contrast to current methods based on cycle counting. Cycle counting methods achieve high data reduction but do not preserve the time sequence of the signal. The developed novel methodology has been validated on the newly developed data acquisition system capable of real time data acquisition and compression of shaft torque signal. The performed tests show that the proposed one-channel low cost system equipped with 1 GB compact flash card can store well over 10 000 hrs of load history.

Shafting -- Fatigue

Shafting -- Testing

Metals -- Fatigue

Monitoring cracks in a rotating shaft

Mohamed, Alhade Abdossllam

January 2012

Condition monitoring of rotating shafts is gaining importance in industry due to the need to increase machine reliability and decrease the possible loss of production due to machine breakdown. In this work, the use of vibration signals for the detection of a crack within a shaft was investigated. The research involved the measurement of vibration signals during laboratory tests on a long rotating shaft rig. The focus of the experimental work was on the effect of cracks on the dynamics and the initiation and growth of cracks in the shaft. Measurements were taken from the shaft system both with simulated cracks (notches) cut at 45° and 90° to the shaft axis and with real propagating cracks initiated by a pre-crack cut. All defects were located at the mid- point along the shaft. The vibration responses and stresses were measured for different depths of crack. The vibration responses of the three different defects were compared using PSDs of the data to identify the change in position and magnitude of the peaks in the spectrum under each defect. Experiments to study the effect of defect depth at different shaft rotation speeds were also carried out. Finally, a shaft with a breathing crack (continuously opening and closing as the shaft rotates) was also studied experimentally, with the crack growing under normal steady state operating conditions. After completing the experiment work, the shaft was broken and the type of fracture studied. The results for both simulated and actual crack growth showed that vibration frequencies decreased as a crack progressed, indicating the possibility of using the vibration signal for crack detection. A significant relationship was found between the stage of crack growth and the vibration results. A finite element (FE) model was constructed to explore the relationship between the natural frequencies and crack depth and position along the shaft and to explain and validate the results of the experimental work. The FE model showed similar trends to the experimental results and also allowed the effect of different crack positions to be explored. The PSD data was fed into an artificial neural network after a feature extraction procedure was applied to significantly reduce the quantity of data whilst at the same time retaining the salient information. Such an approach results in a considerably reduced training time for the network due to the reduced complexity. The proposed scheme was shown to successfully identify the different defect levels. This method greatly enhances the capacity of an automated diagnostic process by linking increased capability in signal analysis to the predictive capability of the artificial neural network.

620.1126

Control of a variable-shaftspeed electromechanical energy-conversion system.

Simkovits, Harvey Roy

January 1976

Thesis. 1976. B.S.--Massachusetts Institute of Technology. Dept. of Electrical Engineering and Computer Science. / Microfiche copy available in Archives and Engineering. / Includes bibliographical references. / B.S.

Wind power

Windmills

Shafting

Electromechanical devices