H.K. Ishmuratov scite author profile

This article deals with the calculation of friction and wear of working surfaces of sliding friction units on the basis of energy theory. Working surfaces have roughness, i.e., protrusions and depressions, which under the influence of load and as a result of slip undergo plastic deformation, as a result of which the roughness of contacting surfaces changes and differs from the initial one, which is called equilibrium roughness. Profilograms of surfaces with equilibrium roughness showed that their protrusions have approximately the same height and large rounding radii, which causes a large contact area of the mating friction surfaces. The intensity of wear of the friction pair depends largely on the normal load on the contact areas. If the contact stress does not exceed the yield strength of the tooth material, the wear of the friction surfaces occurs without seizure, if the yield strength of the material is exceeded, seizure may occur. The process of separation of wear products during meshing operation has a cyclic nature and occurs after a certain number of repeated deformations. The obtained results allow calculating the amount of wear of sliding friction surfaces [1].

show abstract

Determination of the Size of the Abrasive Particle Penetrating the Wedge-Shaped Gap of the Gear Teeth

Ishmuratov¹,

Ishmuratova²

1980

Trenie i Iznos

View full text Add to dashboard Cite

В работе рассмотрено движение абразивных частиц, находящихся в клиновидном зазоре зубьев шестерён. Эти частицы проникают в клиновидный зазор между поверхностями трения. В случае, если сила трения между абразивной частицей и поверхностями трения больше, чем силы, препятствующие проникновению абразивной частицы, которая возникает от нормальной силы, абразивные частицы прижимаются к поверхностям трения. Установлено: что наибольший размер абразивных частиц, проникающих в клиновидный зазор зубьев шестерён: с увеличением коэффициента трения с 0,01 до 0,07 повышается более чем в 20 раз; увеличение модуля зацепления с 0,001 м. до 0,025 м. увеличивается в 2 раза при наличии смазки. Предложено рассматривать изнашивание шестерён как процесс, происходящей при активном и пассивном участии абразивных частиц. Износ зубьев шестерён с активным участием абразивных частиц происходит в клиновидном зазоре между зубьями шестерён, при силе трения поверхностей до их дробления. Износ с пассивным участием абразивных частиц совершается в зоне контакта зубьев шестерён после дробления абразивных частиц, в результате силового взаимодействия выступов шероховатостей поверхностей трения.

show abstract

Wear resistance of gear teeth in the presence of slippage between gear teeth and during rolling

Ishmuratov

2023

E3S Web of Conf.

View full text Add to dashboard Cite

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

H.K. Ishmuratov

Size Determination of Abrasive Particles that Penetrate into the Wedge-Shaped Gap of Gear Teeth

Energy analysis of wear sliding friction units

Determination of the Size of the Abrasive Particle Penetrating the Wedge-Shaped Gap of the Gear Teeth

Wear resistance of gear teeth in the presence of slippage between gear teeth and during rolling

Contact Info

Product

Resources

About