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1	EXPERIMENTAL ASSESSMENT OF THE DYNAMIC FACTORS OF FZG GEAR TESTS AS WELL AS AN EVALUATION OF A MICROPITTING LOAD CAPACITY FORMULA Pickens, David Bruce, III 29 August 2012 (has links) No description available. Mechanical Engineering micropitting dynamics FZG ISO
2	Influence of ANS Triboconditioning on friction and fatigue in rolling contact configurations Hedmark, Björn, Wallgren, Per January 2019 (has links) The automotive industry is constantly being challenged by customers and authorities to enhance the efficiency of the internal combustion engine (ICE) in order to achieve improved fuel consumption and reduced emissions. There are several interfaces within the design of an ICE that causes frictional losses, one of them is the valvetrain. An approach to reducing the friction in the valvetrain of modern engines is to implement cam-follower rollers, resulting in a rolling rather than sliding contact when interacting with the camshaft. The prominent type of wear in rolling contacts is surface fatigue, and specifically a phenomenon called micropitting. The company in collaboration with this project is Applied Nano Surfaces Sweden AB (ANS), located in Uppsala, Sweden. The company have specialized in surface treatment methods of mechanical components. ANS has developed a mechano-chemical treatment method called ANS Triboconditioning, which have shown beneficial friction and wear reducing properties when applied to metal surfaces. This thesis was conducted to investigate how the ANS Triboconditioning would affect the frictional behaviour compared to established surface treatment methods and the occurrence of micropitting in rolling contact configurations. Two types of test programs was implemented into a Wazau UTM 2000 Twin-Disc Tribometer. No clear trend could be established from the micropitting tests and therefore no conclusion regarding if ANS Triboconditioning affects the occurrence of micropitting damage in a positive or negative manner could be stated. The results from the friction test indicated an overall reduction in friction for the test specimens that had been treated with ANS Triboconditioning when compared to specimens that only had been treated with already established surface treatment methods. Summarized, additional tests and analyses are necessary in order to statistically confirm the observed results and determine their respective trends. Tribology friction fatigue micropitting surface engineering twin-disc triboconditioning LTU Mechanical Engineering Maskinteknik
3	Design and Development of a Micropitting Test Rig / Konstruktion och utveckling av en ytutmattningsrigg Gao, Feng January 2015 (has links) One of the common failure modes in rolling contacts, such as in gears and rolling element bearings, is micropitting which has become a big issue. It is considered as a fatigue indicator and can lead to premature gear and bearing failure. This development work requires availability of a versatile test rig which reproduces the pitting or micropitting phenomenon under controlled conditions in the laboratory. The thesis has been carried out in the Department of Machine Design at KTH Royal Institute of Technology. It is a continuation of the project in the Advanced Machine Design course or Maskinkonstruktion högre kurs HK (in Swedish) as part of the Machine Design master programme at KTH. After specifying the scope and analyzing the challenges, this work deals with design modifications and further development of the previous test rig. All the problems addressed at the beginning have been solved. At the end, the newly assembled test rig indicates a stable, quieter and well performed working status as intended. The thesis work turns out a cost-effective way of developing micro-pitting test rig. Apart from physical deliverables; feasible solutions, recommendations and relevant documents such as specifications, program codes are provided in this paper. Some experience and thoughts during the project are also discussed in detail. Based on these, the mentioned future work can be performed and promoted to an advanced level. / En av de vanligaste typ av fel i rullande kontaktmekanik, såsom i kugghjul och kullager, är mikropitting. Fenomenet har nämligen blivit ett stort problem och betraktas som en tidig indikator för utmattning samt kan leda till tidiga utmattningsbrott i kugghjul och kullager. Detta utvecklingsarbete krävs en mångsidig testrigg som kan återskapa gropfrätning och mikropitting under kontrollerade förhållande I laboratorium. Denna examensarbete har genomförts inom Avdelningen för Maskinteknik vid Kungliga Tekniska Högskola (KTH). Arbetet utgör en vidareutveckling påett projekt för kursen ”Maskinkonstruktion högre kurs” inom maskindesignprogrammet. Utöver en analys av utmanningarna, det nuvarande arbetet presenterar designförändringar och vidareutveckling från det tidigare testriggen. Alla problem som påträffades har kunnat lösas. Till slut uppvisar den nymonterade testriggen alla förväntade egenskaper, nämligen stabilitet, förbättrad tysthet samt god performans. Den föreslagna metoden utgör därmed ett kostnadseffektivt sätt att utveckla testrigg för mikropitting. Arbetet består, utöver det fysiska produkten, av lösningar, rekommendationer och relevanta dokument såsom monteringsschema och programkod. En utförlig diskussion av tankar och erfarenheter från projektet presenteras. Baserat på dessa kan det nämnda arbetet genomföras och höjas till en advancerad nivå. micropitting test rig design development mikropitting provningsrigg konstruktion utveckling Mechanical Engineering Maskinteknik
4	Micropitting Testing and Failure Analysis of High-Performance Gear Thermoplastics and Bearing Steel Chockalingam, Mano January 2020 (has links) No description available. Mechanical Engineering Materials Science micropitting bearing steel lubricant additives water contamination thermoplastics tribology
5	On the friction and failure mechanisms of bearing and gear surfaces lubricated by a novel nanoadditive in highly stressed operating conditions Chamorro Ruz, Diego Manuel January 2022 (has links) Obtaining an enhanced lifespan for mechanical transmissions has become a challenge in diverse application sectors. Micropitting as a contact fatigue mechanism has seriously jeopardized the well-being of rolling-sliding elements present for instance in gearboxes. Additivation through copper nanoadditives has demonstrated promising results in preventing contact fatigue. There is a need to assess the influence of copper nanoadditives on micropitting and mild wear before contemplating employing them in real transmission gearboxes. Consequently, this research work aims to acquire knowledge of the tribological behavior of rolling-sliding contacts additivated with a copper nanoadditive, emphasizing the influence of two different copper nanoadditive concentrations (0.3% and 3%) on wear and micropitting as failure mechanisms. Tests were performed using a micropitting test rig. Micropitting and wear were analyzed at different slide-to-roll ratios (1%, 5%, and 30%), different load conditions (1.5 GPa and 2.5 GPa), and different temperatures (60 °C and 100 °C), for all versions of the studied lubricant. There was no change in friction behavior between the versions of the oil additivated with the copper nanoadditive and its original version. Furthermore, it was found a reduction of micropitting for the 3% version of the studied oil in some operating conditions, and a reduction of the average wear volume for this same concentration in all studied operating conditions. On the other hand, it was found that the 0.3% version of the studied oil promoted wear with an increasing slide-to-roll ratio when compared with the original version of the studied oil. A higher reduction in wear was obtained for the 0.3% version of the studied oil with an increasing temperature when compared with the 3% version. These results indicate that copper nanoadditives exhibit the potential to reduce micropitting in non-conformal rolling-sliding contacts typically found in gears and rolling-element bearings. micropitting nanoadditive gear bearing tribology rolling contact fatigue
6	Investigation of micropitting and wear in rolling/sliding contacts operating under boundary lubrication conditions Hasan, Mushfiq January 2021 (has links) No description available. micropitting wear rolling contact fatigue surface treatment boundary lubrication gear triboconditioning
7	Investigation the Effect of Tribological Coatings: WC/a-C:H and Black Oxide on Micropitting Behavior of SAE52100 Bearing Steel Mahmoudi, Behzad January 2015 (has links) No description available. Aerospace Engineering Aerospace Materials Materials Science Mechanical Engineering
8	SUSTAINABLE LUBRICATION FOR FUTURE TRANSMISSIONS : Micropitting performance of Glycerol-based lubricants Juan Guillermo, Zapata Tamayo January 2021 (has links) Achieving sustainable lubrication by using environmentally friendly formulated lubricants has became an essential component of the transition process from fossil-powered vehicles to electrified transportation. Mixtures, or aqueous solutions of molecules such as polyhydroxy alcohols, and glycols usually known as green lubricants make it possible to achieve low friction coefficients under different lubrication conditions, which constitutes a potential alternative to improve the tribological performance of moving parts in automotive systems, at the same time that the environmental requirements are satisfied. There is a need to improve the protection against mild-wear and micropitting offered by green-lubricants before consider using them in the transmission gear box of battery electric vehicles BEVs, where their low shear-stress resistance can potentially help to improve the vehicle efficiency. Therefore, this research work aims to gain understanding of the tribological behaviour of rolling-sliding elements under glycerol-based lubrication, with focus on assessing the influence of different glycerol-based lubricant formulations on the wear modes associated to rolling contact fatigue such as micropitting, and macropitting. Micropitting tests were carried out by using a micropitting rig, with a roller on ring planetary configuration. The evolution of microcracks, and micropitting was studied for several glycerol-based lubricants at different slide-to-roll ratios (SRRs) 5-30%, and different load contact conditions 1.5-2.5 GPa. A comparison against a fully formulated transmission oil has been performed. A relationship between the surface damage morphology and the operating conditions has been established. The lubrication regimes of DLC coated contacts and uncoated contacts in presence of glycerol-based lubricants were investigated through the construction of 3D friction maps, and Stribeck curves in a wide range of rolling speeds, and SRR testing conditions. The capability of two different DLC coating systems to prevent micropitting onset due to rolling contact fatigue in presence of glycerol-based lubricants was studied: Cr/a-WC:H/a-C:H and a-C:Cr. Under mixed-lubrication regime it was found that a reduction up to 51% of friction can be achieved by using glycerol-based lubricants compared to a commercial transmission oil. The initial low friction coefficients at low contact cycles was attributed to the low pressure-viscosity coefficient of the glycerol-based lubricants. Friction was even further reduced with the increasing contact cycles since glycerol aqueous solutions were found to promote mild-wear, causing a smoothing of the surface asperities and therefore an enhancement of the hydrodynamic effect due a higher lambda ratio (Λ), making possible to trigger superlubricity in the contact. Surface micro-cracking was found to decrease at low SRR values under glycerol-based lubrication contrasted to the contacts lubricated with a fully formulated transmission oil. Once microcracks were nucleated, micropitting progressed faster in the contacts lubricated with glycerol-based lubricants, while micropitting was null or significantly delayed in presence of transmission oil. With the increasing SRR surface microcracks density and micropitting was found to became higher. The reduction of microcracks density with a glycerol-glycol based lubricant was attributed to the adsorption of long glycol molecules on the steel surface that avoid the direct interaction between asperities. The faster micropitting progression was attributed to the presence of dissolved water in the contact. Thin DLC a-C:Cr coatings were shown to significantly mitigate the penetration of surface initiated pits into the steel substrate, which was translated in a lower volume loss. Local micro-delamination was found to be the main reason behind coating failure in presence of glycerol-based lubricants, as a result, pitting took place on the steel exposed areas. micropitting mild sliding wear surface coating diamond-like carbon DLC glycerol-based lubrication green lubricant rolling contact fatigue rolling-sliding
9	An Investigation of Material Properties and Tribological Performance of Magnetron Sputtered Thin Film Coatings Singh, Harpal January 2015 (has links) No description available. Engineering Aerospace Materials Mechanical Engineering Materials Science Experiments

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