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11	Effect of lubricating oil characteristics on gear vibrations Perera, Palihawandana Arachige Bertram A. R. January 1986 (has links) An extensive literature survey of the subject of gear dynamics is undertaken and the increasing recognition of the role of the lubricating oil film in this field, especially as a damping source, is highlighted. The oil film separating the mating surfaces of involute spur gears is analysed assuming hydrodynamic conditions, rigid teeth (as far as the film shape is concerned) and pressure dependent viscosity. Gear tooth mesh stiffness is expressed as a function of the dynamic load and the position of contact. simple model of a pair of spur gears is subjected to a transient response analysis and the behaviour of the lubricating oil film observed. According to the motions of equivalent masses of the apars under these transient conditions damping due to the oil film is determined. The numerical solutions obtained at various operating conditions are combined to form an approximate formula to predict the damping ratio in terms of the dynamic tooth load, rolling speed of the tooth surfaces and the viscosity of the lubricating oil. A digital computer simulation of the dynamic motion of the pair of gears is carried out incorporating the above damping ratio formula. The actual load sharing between the pairs of teeth (when more than one pair of teeth are in mesh), considering the tooth deflections, pitch errors, oil film thicknesses and the differences in mesh stiffnesses, is taken into account. The variations of the total maximum dynamic load and the maximum tooth load are studied under different nominal loads, contact ratios, oil viscosities and pitch errors over a wide range of speeds covering the resonance area. The variations of the dynamic load, individual tooth load, mesh stiffness and the oil film thickness during complete mesh cycles are also analysed under different operating conditions to identify particular areas where high loads and minimum film thicknesses occur. Theoretical results are compared with the experimental results obtained on a back-to-back gear test rig. 621.89 Gear teeth lubrication
12	An investigation of commercial-aircraft landing-gear wheel-assembly service-life in order to develop inventory decision models for spare assemblies and tires Friedman, Robert Stephen 05 1900 (has links) No description available. Airplanes Landing gear Inventories
13	Intelligent optimum design with the support of Internet techniques Amin, Nariman January 2003 (has links) No description available. 621 Gear design optimisation
14	A generic simulation model for analysis of aircraft undercarriage behaviour Harris, Carl John January 1999 (has links) No description available. 629.133 Landing gear
15	A vibrational study of gear pumps and gear pump drives / Kulpa, Matthew. January 1991 (has links) Thesis (M.S.)--Rochester Institute of Technology, 1991. / Typescript. Includes bibliographical references (leaves 89-90). Gear pumps Coating processes.
16	Composite skid landing gear design investigation Shrotri, Kshitij. January 2008 (has links) Thesis (Ph.D.)--Aerospace Engineering, Georgia Institute of Technology, 2008. / Committee Chair: Daniel Schrage; Committee Member: Andrew Makeev; Committee Member: Olivier Bauchau; Committee Member: Robert Meissbach; Committee Member: Sathyanarayan Hanagud. Composite materials. Landing gear.
17	The durability of highly loaded, case hardened steel gears Wilkinson, Christian Marco Raymond January 1998 (has links) No description available. 620.11223 Gear wear
18	Vibration Based Planetary Gear Analysis and Damage Detection Sawatzky, Rene 01 September 2014 (has links) With this thesis the research at the engineering department is continued, based on previous thesis projects. These projects were considering the possibility of simulation gears with rigid bodies. After researches with different emphasizes on the rigid body simulation, the gained knowledge showed limitations of the rigid body model. Gear failures are very diverse and the actual simulation technique could not represent all necessary failure modes that can occur. That led to this thesis as a research project to find a way to detect and analyze the failure modes that cannot be considered with the current rigid body approach. With the flexible body theory and simulation tools (MSC:Adams) this gap of gear failure detection simulation can be closed. The objective is, making it possible to simulate all failure modes of a gear that can occur. Additionally the previous project on this topic were using gears of small laboratory conditions. An industry sector has been picked to work on a practical application. This application is a wind turbine gearbox. These gearboxes have common run-time errors which influences the profitability of the power generation. To model this system a gear design guide for wind turbine gearboxes is elaborated. Vibration Gear Mechanical Engineering
19	FINITE ELEMENT ANALYSIS OF SPUR GEAR SET Bommisetty, Venkata Satya Naga Karthik 23 May 2012 (has links) No description available. Mechanical Engineering Spur Gear
20	Impact of system-level factors on planetary gear set behavior Ligata, Haris 08 March 2007 (has links) No description available. planetary gear set planetary gear design gear life planetary gear kinematics

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