Testing of the Resistance to Scuffing of Spiral Bevel Gears: Test Rig, Method, and Results of Verification Testing

Tuszyński, W.; Kalbarczyk, M.; Kiser, B.; Michalak, M.; Michalczewski, R.; Mydlarz, J.; Piekoszewski, W.; Szczerek, M.; Wulczyński, J.

doi:10.5772/intechopen.84848

Friction, Lubrication and Wear 2019

DOI: 10.5772/intechopen.84848

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Testing of the Resistance to Scuffing of Spiral Bevel Gears: Test Rig, Method, and Results of Verification Testing

W. Tuszyński¹,

M. Kalbarczyk²,

B. Kiser³

et al.

Abstract: In spite of long-term development of the technology of bevel gear production, the automotive industry reports various operational demands such as the need of the size and mass reduction of gears without lowering their durability and reduction of friction leading to a decrease in the energy losses and a decrease of the tendency to scuffing. What is more expected, EU regulations may impose the use of new generation gear oils (ecological-friendly) providing the proper operational properties of the transmission. I… Show more

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2024

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Wear Mechanisms of the Working Surface of Gears after Scuffing Tests

Osuch-Słomka,

Michalczewski,

Mańkowska-Snopczyńska

et al. 2024

Materials

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Identification of changes occurring on the working surface of lubricated gears using analytical equipment, e.g., an FE-SEM scanning electron microscope with an EDS microanalyzer, a WLI interferometric microscope, or a GDEOS optical discharge spectrometer, enables the characterisation of wear mechanisms of this surface. Definition of the phenomena occurring on the surface of tribo-couples after scuffing tests enables a comparative analysis of scuffing resistance and surface properties of the micro- and nanostructure, and elemental composition of the tested gears. Recognition and analysis of the wear mechanisms occurring on the working surface of gears will reduce the risk of damage and losses resulting from the need for maintenance and repair. The study concerned the working surfaces of gears made of 17HNM and 35HGSA steels on which a W-DLC/CrN coating was deposited. Shell Omala S4 GX 320 commercial industrial oil with a synthetic PAO (polyalphaolefin) base was selected for the lubrication of the gears. Tribological tests employed an FZG gear scuffing under severe conditions test method and they were carried out on a T-12U test rig for cylindrical gear analysis.

show abstract

Wear Mechanisms of the Working Surface of Gears after Scuffing Tests

Osuch-Słomka,

Michalczewski,

Mańkowska-Snopczyńska

et al. 2024

Materials

View full text Add to dashboard Cite

show abstract

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Testing of the Resistance to Scuffing of Spiral Bevel Gears: Test Rig, Method, and Results of Verification Testing

Cited by 1 publication

References 43 publications

Wear Mechanisms of the Working Surface of Gears after Scuffing Tests

Wear Mechanisms of the Working Surface of Gears after Scuffing Tests

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