@article{10902/30155,
year = {2023},
month = {6},
url = {https://hdl.handle.net/10902/30155},
abstract = {Background
Worm gear sets are used in many applications of the transmission field. These mechanisms have interesting advantages. Despite this, its modelization is still challenging. This is due to its complex geometry. The goal behind this is to have an accurate model that allows improvement of the design of worm gear sets.
Purpose
In this context, the paper presents a new mathematical model of a worm gear drive under rotational external excitations.
Methods
Dynamic model is defined by fourteen degrees of freedom describing all rotations and translations of worm gear set, AQ1 bearings, a motor and a receiver connected together. First, equations of motion are developed to describe the dynamic behavior. Lagrange formula is, thus, employed. Elastic deformations of meshed teeth are considered. The normal load associated with the meshing is established as function of the model degrees of freedom through the elastic deflection. Second, a numerical simulation is carried out. Newmark Beta method is used to solve equations.
Results
Numerical results are presented to discuss the model accuracy. The impact of the variation of friction coefficient and the stiffness of the worm gear is finally studied to discuss the consistency of the new formulation developed through this work.},
publisher = {Springer Nature},
publisher = {Journal of Vibration Engineering and Technologies, 2023, 11(4), 1407-1415},
title = {New approach to sudy the dynamic performance of worm gear drive model},
author = {Hammami, Chaima and Chakroun, Ala Eddin and Hammami, Ahmed and Chaari, Fakher and Juan de Luna, A. M. de and Fernández del Rincón, Alfonso and Viadero Rueda, Fernando and Haddar, Mohamed},
}