Influence of asymmetric tooth profile and manufacturing process on the bending strength of polymer spur gears

dc.contributor.authorPandian, A Karthik
dc.date.accessioned2022-12-06T05:59:54Z
dc.date.accessioned2023-10-26T09:42:15Z
dc.date.available2022-12-06T05:59:54Z
dc.date.available2023-10-26T09:42:15Z
dc.date.issued2022
dc.descriptionSupervisors: Senthilvelan, S and Gautam, Sachin Singh
dc.description.abstractThe usage of polymer gears has increased significantly due to the improvements in design practices, material properties and manufacturing accuracy. In polymer gear drives, asymmetric tooth profile and polymer mating gear exert significant influence on bending fatigue strength and stiffness behavior. Additive manufacturing of polymer gears such as by selective laser sintering process – advantageous for prototyping and low-volume manufacturing – confer properties that depend on the build configuration. In this work, the bending fatigue behavior of injection-molded Nylon 66 symmetric (20°/20°) and asymmetric (34°/20° and 20°/34°) gears, and selective laser sintered Nylon 12 symmetric gears built in 'flat' and 'on-edge' configurations were evaluated. The effects of asymmetric tooth and polymer mating gear on the deflection and load sharing characteristics were investigated. The bending fatigue performance was evaluated experimentally through load-controlled, pulsator tests in a custom-built test rig. Experimental determination of mesh deflection was carried out using an in-house developed static tooth deflection test rig. Quasi-static numerical simulations were performed in ABAQUS® to predict root bending stress, load share ratio, and tooth and mesh deflections. The bending fatigue performance of metal – polymer pairs was dominated by root bending stress, whereas operating temperature determined the performance of polymer – polymer pairs. The bending fatigue life of 34°/20° configuration was the highest among metal – polymer pairs, whereas in polymer – polymer pairs, the life of 20°/34° configuration was greater than other configurations. The form factor exerted a decisive influence on the magnitude of bending stress compared to the stress correction factor. The deflection-induced load sharing occurred in 20°/20° and 20°/34° configurations. The peak mesh deflection and peak-to-valley amplitude in a cycle were lowest in the 20°/34° configuration. In the 34°/20° configuration, the increase in the single tooth contact period caused by a higher drive side pressure angle resulted in greater peak mesh deflection and peak-to-valley amplitude. The negligible tooth compliance of metal gear caused unsymmetrical load sharing in metal- polymer pairs' double tooth contact zones. The bending fatigue strength of selective laser sintered Nylon 12 gears built in a 'flat' configuration was greater than that of injection-molded Nylon 66 gears. The layered structure of the selective laser sintered gears impeded the crack propagation, as the crack front extended across all the layers along the face width direction. The bending fatigue life of selective laser sintered 40° and 160° configurations were lower than injection-molded Nylon 66 gears. The cross-laminar mode of crack propagation in SLS 40° lead to greater fatigue life. However, the crack path in SLS 160° was along the interlayer region, which expedited the crack propagation.en_US
dc.identifier.otherROLL NO.156103042
dc.identifier.urihttps://gyan.iitg.ac.in/handle/123456789/2224
dc.language.isoenen_US
dc.relation.ispartofseriesTH-2763;
dc.subjectPolymer Gearen_US
dc.subjectBending Fatigueen_US
dc.subjectTooth Deflectionen_US
dc.subjectAsymmetric Tooth Profileen_US
dc.subjectInjection Moldingen_US
dc.subjectSelective Laser Sinteringen_US
dc.subjectBuild Orientationen_US
dc.subjectPolymer Gear
dc.subjectBending Fatigue
dc.subjectTooth Deflection
dc.subjectAsymmetric Tooth Profile
dc.subjectInjection Molding
dc.subjectSelective Laser Sintering
dc.subjectBuild Orientation
dc.titleInfluence of asymmetric tooth profile and manufacturing process on the bending strength of polymer spur gears
dc.typeThesis
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