Analytical investigation on load-sharing characteristics for multi-power face gear split flow system

Mo, Shuai; Yue, Zongxiang; Zhao, Feng; Shi, Lijuan; Zou, Zhenxing; Dang, Heyu

doi:10.1177/0954406219876954

Cited by 48 publications

(35 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In proposed adaptive control design, a high-order machine settings modification is essentially a finite approximation to the prescribed target flank satisfying an accurate parameterization. 35,36 To get an accurate modification, L-M based flank approximation is proposed. With the proposed polynomial fitting and optimization, the ease-off flank is provided, as well as initial high-order coefficients.…”

Section: Operation and Optimization Of Adaptive Controlmentioning

confidence: 99%

Adaptive data-driven modular control approach to computer aided process planning for manufacturing spiral bevel and hypoid gears

Rong

Ding

Tang

2020

Proceedings of the Institution of Mechanical Engineers, Part B:

View full text Add to dashboard Cite

Machine setting modification has been an increasingly important access to the accurate flank manufacturing geometric accuracy control for spiral bevel and hypoid gears. More recently, machine setting driven integration of the theoretical design and the actual gear manufacturing is gaining more and more attention. In this paper, the traditional machine setting modification is extended to the case when higher-order component of the prescribed ease-off flank topography is investigated in form of high-order polynomial expression. Moreover, the actual gear manufacturing and general measurement are integrated into an adaptive data-driven high-order machine setting modification. In particular, this modification method is used to perform adaptive modular control for computer aided process planning (CAPP). Here, a data-driven operation and optimization is developed for adaptive high-order modification. It mainly includes: (i) Polynomial fitting and its optimization by using overall interpolation based on energy method, (ii) Data-driven ease-off flank parametrization based on the fastest descent Newton iteration method, (iii) adaptive control strategy by considering the sensitivity analysis, and (iv) Levenberg-Marquardt (L-M) based approximation for high-order machine setting modification. Given numerical test can verify the proposed method.

show abstract

Section: Operation and Optimization Of Adaptive Controlmentioning

confidence: 99%

Adaptive data-driven modular control approach to computer aided process planning for manufacturing spiral bevel and hypoid gears

Rong

Ding

Tang

2020

Proceedings of the Institution of Mechanical Engineers, Part B:

View full text Add to dashboard Cite

show abstract

“…Li et al [17] established a coupled dynamic model to predict the modulation sidebands of a two-stage planetary gear set and analyzed the influence of crack propagation on the mesh stiffness. Mo et al [18,19] established the dynamic models for the multipower face gear split flow system and herringbone planetary gears, respectively, by the lumped-parameter method and studied the load-sharing characteristics of the transmission system. Ambarisha and Parker [20] proposed two independent models: one a lumped-parameter mathematical model and the other a finite element model, with different formulations, and different mesh modeling assumptions are used to analyze the nonlinear dynamics of planetary gears.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Dynamic Characteristics of the Multistage Planetary Gear Transmission System with Friction Force

Xiao

Chen

Zhang

2021

Shock and Vibration

View full text Add to dashboard Cite

Multistage planetary gear transmission system has been widely utilized in engineering practice due to the salient characteristics, such as high bearing load and large speed ratio. This paper addresses a two-stage planetary gearbox and establishes a system coupling torsional dynamical model which considers the time-varying mesh stiffness, friction forces, and interstage coupling factors. Meanwhile, the friction and lubrication states are classified to comprehensively analyze the calculation of friction coefficients under different conditions. Considering the time-varying influence of friction on the tooth surface under the condition of fluid lubrication, the vibration response under parametric excitation is solved by a numerical method. A multistage planetary transmission test bench is built in the back-to-back form so as to test the vibration of the two-stage planetary gearbox. It shows that the simulation results of the dynamical model are consistent with the test data. Consideration of the calculation of friction on the tooth surface and the friction coefficients is helpful for the establishment of the more accurate dynamical model and lays the foundation for the structural design, fault diagnosis, and dynamic optimization of the multistage planetary gear transmission system.

show abstract

“…Yan et al [23] developed a two-stage geared rotor system's dynamic model through the finite element method, where the meshing stiffness and clearance were obtained through the tooth surface contact analysis. Mo et al [24][25][26] employed the centralized parameter method to establish the translational-torsional dynamic equations of herringbone planetary gear train and multi-power face gear split-flow system, respectively, then the effects of some key factors on the load-sharing characteristic were studied. The above analysis of the multi-stage geared rotor transmission system provided a lot of valuable references for the dynamic design of the complex gear system.…”

Section: Introductionmentioning

confidence: 99%

Modeling and dynamic analysis of spiral bevel gear coupled system of intermediate and tail gearboxes in a helicopter

Zhu

Chen

Zhu

et al. 2021

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

The coupled dynamic model of the intermediate and tail gearboxes’ spiral bevel gear-oblique tail shaft-laminated membrane coupling was established by employing the hybrid modeling method of finite element and lumped mass. Among them, the dynamic equation of the shaft was constructed by Timoshenko beam; spiral bevel gears were derived theoretically by the lumped-mass method, where the effects of time-varying meshing stiffness, transmission error, external imbalance excitation and the like were considered simultaneously; laminated membrane coupling was simplified to a lumped parameter model, in which the stiffness was obtained by the finite element simulation and experiment. On this basis, the laminated membrane coupling and effects of several important parameters, including the unbalance value, tail rotor excitation, oblique tail shaft’s length and transmission error amplitude, on the system’s dynamic characteristics were discussed. The results showed that the influences of laminated membrane coupling and transmission error amplitude on the coupled system’s vibration response were prominent, which should be taken into consideration in the dynamic model. Due to the bending-torsional coupled effect, the lateral vibration caused by gear eccentricity would enlarge the oblique tail shaft’s torsional vibration; similarly, the tail rotor’s torsional excitation also varies the lateral vibration of the oblique tail shaft. The coupled effect between the eccentricity of gear pairs mainly hit the torsional vibration. Also, as the oblique tail shaft’s length increased, the torsional vibration of the oblique tail shaft tended to diminish while the axis orbit became larger. The research provides theoretical support for the design of the helicopter tail transmission system.

show abstract

Analytical investigation on load-sharing characteristics for multi-power face gear split flow system

Cited by 48 publications

References 19 publications

Adaptive data-driven modular control approach to computer aided process planning for manufacturing spiral bevel and hypoid gears

Adaptive data-driven modular control approach to computer aided process planning for manufacturing spiral bevel and hypoid gears

Analysis of Dynamic Characteristics of the Multistage Planetary Gear Transmission System with Friction Force

Modeling and dynamic analysis of spiral bevel gear coupled system of intermediate and tail gearboxes in a helicopter

Contact Info

Product

Resources

About