Global ETD Search

21	Studium chování elastohydrodynamicky mazaných kontaktů strojních částí s nehladkými povrchy / Study of behaviour of EHD lubricated contact of machine parts within non-smooth surfaces Zapletal, Lukáš January 2010 (has links) Master’s thesis deals with development of software application to calculate contact pressure in eleastohydrodynamic lubricated contact in order to use previously obtained data of the lubricating film thickness. The introduction contains a short overview of methods used for the study of film thickness and contact pressure. Custom work includes a contact pressure solution derived from a film thickness, a description of the developed software and analysis of algorithms used for its compilation. The last part deals with the verification of algorithm, application of software for calculating the contact pressure on the rough surface and analysis of the results. The conclusion includes a summary and possible application of software in practice.
22	Studium utváření mazacích filmů za podmínek nedostatečného zásobování kontaktu mazivem / Study of lubrication films formation under starved lubrication conditions Košťál, David January 2011 (has links) The purpose of this thesis is to reveal production mechanisms of lubrication films between non-conformal surfaces in situations, when is not possible to designate lubrication regime as fully flooded elastohydrodynamic contact. Under certain conditions of lubrication volume, rolling speeds, temperatures, lubrication properties or loads could lubrication film decrease under values determined by fully flooded formulas. This regime is designated as starvation at it includes risk of increased wear. In this thesis the methodology and the new simulator of starving contact are described. Obtained film thickness results are compared with existing numerical models.
23	Vliv povrchových rýh na mazání bodových kontaktů / The effect of surface grooves on point contacts lubrication Matoušek, Kamil January 2015 (has links) This diploma thesis deals with experimental study of the effect of surface grooves on distribution of lubricant film in elastohydrodynamic lubricated point contact. Lubricant film thickness was measured by ball-on-disc apparatus using an optical interferometry technique - thin film colorimetric interferometry. The effects of groove geometry, lubricant and operating conditions were studied in this diploma thesis. The effects of these variables are evaluated based on newly suggested parameter Rgi (groove influence ratio). Groove influence ratio is defined as an influenced film thickness influenced by groove divided by film thickness for smooth surfaces.
24	The Influence of a Class of Surface Defects on the High-Speed Scuffing Performance of Spur Gears Beall, Gunther Shepard January 2021 (has links) No description available. Mechanical Engineering Geared transmission Gear contact durability Tribology Defects Scuffing Elastohydrodynamic Lubrication
25	An Investigation on Spur Gear Rolling Contact Fatigue Crack Initiation and Crack Propagation under EHL Condition Dharmarajan, Vignesh January 2019 (has links) No description available. Mechanical Engineering spur gear crack nucleation crack propagation Elastohydrodynamic Lubrication EHL Rolling Contact Fatigue
26	A Generalized Elastohydrodynamic Lubrication Model for Two-Dimensional Contacts Chimanpure, Amit S. January 2020 (has links) No description available. Mechanical Engineering Elastohydrodynamic Lubrication Roughness Oil Rheology Helical Gears Mechanical Power Loss
27	Effects of Lubrication Starvation on Flash Temperature for Thermal Mixed Elastohydrodynamic Gear Contacts Massé, Danielle D. 18 December 2019 (has links) No description available. Mechanical Engineering spur gear contacts flash temperature
28	An Experimental Evaluation of Micro-pitting Performance of Two Bearing Steels Tilson, Nial Robert 09 August 2013 (has links) No description available. Engineering Mechanical Engineering Materials Science Micro-pitting micro-pit elastohydrodynamic lubrication ground specimens surface failure
29	INVESTIGATION OF ROLLING ELEMENT BEARING LUBRICATION AND FRICTION Wyatt L Peterson (14333001) 17 January 2023 (has links) <p>Lubrication and friction of modern rolling element bearings were investigated to develop a physics-based bearing friction model. A test rig was designed and developed to measure the frictional torque of radially loaded rolling element bearings with oil bath lubrication. Deep groove ball bearings and radial needle roller bearings were studied at various loads, speeds and lubrication conditions. Experimental results indicate that bearing friction models currently used in industry can be inaccurate, especially when predicting bearing fluid drag losses. A separate test rig was designed and developed to investigate the lubrication and friction of rolling element bearing cage pockets, as new cage pocket designs could improve bearing efficiency. Cage pocket oil starvation was observed for certain operating conditions, and the starvation was found to correlate strongly with cage pocket friction. In order to better understand friction and lubrication characteristics of bearings, computational fluid dynamics (CFD) models were developed to compare with the experimental results. Fluid motion inside the rolling element bearings was investigated using CFD to determine fluid drag torque of bearing components. Fluid drag torque obtained from CFD and experimental measurements are in good agreement. Results from the CFD models also included pressure distributions over bearing surfaces and fluid velocity near rolling elements, but were limited to global length scales. At the micro-scale, rolling element bearing lubrication and friction is dictated by elastohydrodynamic lubrication (EHL). The radial needle roller bearings and deep groove ball bearings used in this investigation are characterized by line and elliptical contacts, respectively. EHL modeling was therefore developed for line contacts with a strongly coupled fluid solid interaction (FSI) solver. Solid bodies were modeled with finite element (FE) software to incorporate inhomogeneities such as inclusions and surface features which affect EHL pressure, film thickness and friction. Results were used to investigate lubricant film thickness at lubricated line contacts under various operating conditions. This work was further extended to model EHL circular contacts with an FSI approach, combining CFD and FE software. The newly developed FSI EHL model provided critical insights regarding fluid behavior in and around EHL point contacts and fluid properties within the lubricant film. Given the modeling results at the micro and macro scale within the rolling element bearings, a better understanding of bearing friction and lubrication is developed, and supported by experimental data.</p> Tribology Computational Fluid Dynamics Model finite element elastohydrodynamic lubrication Rolling element bearings
30	An Elastohydrodynamic Lubrication Model for Helicopter High-Speed Transmission Components Cioc, Carmen Ana Beatrice January 2004 (has links) No description available. tribology elastohydrodynamic lubrication Newtonian and non-Newtonian fluids surface roughness effects thermal effects transient effects

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