Zhipu Huo scite author profile

Zhipu Huo

5Publications

39Citation Statements Received

38Citation Statements Given

How they've been cited

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103

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Shandong University

Publications

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Analysis of Dynamic Behavior of Multiple-Stage Planetary Gear Train Used in Wind Driven Generator

Wang

Yong

Huo

2014

The Scientific World Journal

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A dynamic model of multiple-stage planetary gear train composed of a two-stage planetary gear train and a one-stage parallel axis gear is proposed to be used in wind driven generator to analyze the influence of revolution speed and mesh error on dynamic load sharing characteristic based on the lumped parameter theory. Dynamic equation of the model is solved using numerical method to analyze the uniform load distribution of the system. It is shown that the load sharing property of the system is significantly affected by mesh error and rotational speed; load sharing coefficient and change rate of internal and external meshing of the system are of obvious difference from each other. The study provides useful theoretical guideline for the design of the multiple-stage planetary gear train of wind driven generator.

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Numerical analysis of a tidal current generator with dual flapping wings

Wang

Xie

et al. 2018

Energy

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Finite Element Residual Stress Analysis of Planetary Gear Tooth

Wang

Huo

2013

Advances in Mechanical Engineering

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A method to simulate residual stress field of planetary gear is proposed. In this method, the finite element model of planetary gear is established and divided to tooth zone and profile zone, whose different temperature field is set. The gear's residual stress simulation is realized by the thermal compression stress generated by the temperature difference. Based on the simulation, the finite element model of planetary gear train is established, the dynamic meshing process is simulated, and influence of residual stress on equivalent stress of addendum, pitch circle, and dedendum of internal and external meshing planetary gear tooth profile is analyzed, according to non-linear contact theory, thermodynamic theory, and finite element theory. The results show that the equivalent stresses of planetary gear at both meshing and nonmeshing surface are significantly and differently reduced by residual stress. The study benefits fatigue cracking analysis and dynamic optimization design of planetary gear train.

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Nonlinear Dynamic Analysis and Optimization of Closed-Form Planetary Gear System

Huang

Yong²,

Huo³

et al. 2013

Mathematical Problems in Engineering

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A nonlinear purely rotational dynamic model of a multistage closed-form planetary gear set formed by two simple planetary stages is proposed in this study. The model includes time-varying mesh stiffness, excitation fluctuation and gear backlash nonlinearities. The nonlinear differential equations of motion are solved numerically using variable step-size Runge-Kutta. In order to obtain function expression of optimization objective, the nonlinear differential equations of motion are solved analytically using harmonic balance method (HBM). Based on the analytical solution of dynamic equations, the optimization mathematical model which aims at minimizing the vibration displacement of the low-speed carrier and the total mass of the gear transmission system is established. The optimization toolbox in MATLAB program is adopted to obtain the optimal solution. A case is studied to demonstrate the effectiveness of the dynamic model and the optimization method. The results show that the dynamic properties of the closed-form planetary gear transmission system have been improved and the total mass of the gear set has been decreased significantly.

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Effects of time-varying freestream velocity on energy harvesting using an oscillating foil

Wang

Xie

et al. 2018

Ocean Engineering

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Zhipu Huo

Analysis of Dynamic Behavior of Multiple-Stage Planetary Gear Train Used in Wind Driven Generator

Numerical analysis of a tidal current generator with dual flapping wings

Finite Element Residual Stress Analysis of Planetary Gear Tooth

Nonlinear Dynamic Analysis and Optimization of Closed-Form Planetary Gear System

Effects of time-varying freestream velocity on energy harvesting using an oscillating foil

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