Results 31 to 40 of about 10,390 (284)

Modeling and Contact Strength Analysis for Modified Cylindrical Gear Profile with Arcuate Tooth Trace

open access: yesJixie chuandong, 2015
Based on analyzing the meshing theory of ideal gear and the tooth surface equation,the tooth surface equation of modified cylindrical gear profile with arcuate tooth trace is deduced.
Zhang Haiyan   +4 more
doaj   +2 more sources

Investigation on Tooth Surface Wear of Cycloid Drives Considering Tooth Profile Modifications

open access: yesLubricants, 2023
Cycloid drives are widely used in various mechanical systems due to their high reduction ratio, compact size, and high efficiency. Tooth surface wear is a major problem that affects the reliability and durability of cycloid drives. However, compared to the research on the wear of involute gears, the prediction of tooth surface wear in cycloid drives is
Xuan Li   +4 more
openaire   +2 more sources

Analytical algorithm for time-varying meshing stiffness of modified herringbone gear pair

open access: yesXibei Gongye Daxue Xuebao, 2022
This paper jointly uses the slicing method and the potential energy method to propose an analytical algorithm that considers the meshing stiffness of the modified herringbone gear pair and its axial force.
ZOU Haoran   +4 more
doaj   +1 more source

Circumferential spatial tooth profile modification of flexspline for strain wave gear (A novel method and a case study)

open access: yesJournal of Advanced Mechanical Design, Systems, and Manufacturing, 2023
Strain wave gear, also known as "harmonic drive" is widely used in the industrial robotics field due to the excellent deceleration performance.
Jianzhong HUANG   +4 more
doaj   +1 more source

Multi-Tooth Contact Analysis and Tooth Profile Modification Optimization for Cycloid Drives in Industrial Robots

open access: yes, 2023
Cycloid drives are widely used in industrial robots where high load carrying capacity, accurate positioning precision and smooth motion are required strictly.
He, Haidong, Li, Xuan, Zhang, Ting
core   +2 more sources

Effect of Tooth Profile Modification on Dynamic Tooth Load of Planetary Gear Train

open access: yesShock and Vibration, 2019
This paper aims at investigating the effects of tooth profile modification (TPM) on the dynamic response of planetary gear train (PGT). A numerical model is carried out to calculate two major excitation sources of PGT, time‐varying mesh stiffness (TVMS), and transmission errors (TEs).
Jiaming Zhou   +5 more
openaire   +2 more sources

Microgeometrical tooth profile modification influencing efficiency of planetary hub gears [PDF]

open access: yesInternational Journal of Powertrains, 2018
Planetary hub systems offer desired speed and torque variation with a lighter, compact and coaxial construction than the traditional gear trains. Generated friction between the mating teeth flanks of vehicular planetary hubs under varying load-speed conditions is one of the main sources of power loss.
fatourehchi, Ehsan   +6 more
openaire   +1 more source

Tooth Profile Modification Method of RV Reducer Cycloid Gear Aiming at Optimizing Carrying Capacity

open access: yes, 2022
Cycloid gear tooth profile modification is very important to the performance of RV reducer,in order to select the shape modification method and parameter size reasonably and improve the stress state of the cycloid tooth surface,an equidistant & ...
Mingyuan Lei   +4 more
core   +1 more source

Analysis of the Modification Sensitivity of Herringbone Gear

open access: yesJixie chuandong, 2022
In order to improve the applicability of herringbone gear modification results, it is necessary to analyze the sensitivity of gear surface modification parameters.
Yong Zhao   +5 more
doaj  

A New Modification Method with Double Spline Curve for the Tooth Surface Design of Spur Gear

open access: yesJixie chuandong, 2021
A new tooth surface design is proposed to spur gears with a tooth surface modification defined by double spline curves, which are used to represent the tooth profile and longitudinal profile, respectively.
Wenjun Fan   +3 more
doaj  

Home - About - Disclaimer - Privacy