Determination of the restitution coefficient of seeds and coefficients of visco-elastic Hertz contact models for DEM simulations

摘要

In this study, we determine the coefficients of restitution (CoRs) of seeds coming from three plants, namely the pea (Pisum satiuum L. cv. Piast), soybean (Glycine max (L.) Merr. cv. Annushka) and rapeseed (Brassica napus L. cv. Licosmos), at three levels of moisture content for an impact velocity V-0 ranging from 0.17 to 8.8 m s(-1). We obtain high-speed camera measurements as well as single-drop and repeated-bounce tests. We record the impact force time relationships F-n(t) using a piezo-ceramic pressure sensor. The results show that the rate of decrease of the CoR with an increase in V-0 was the highest for rapeseed having the highest moisture content (MC), and it was the lowest for pea seeds having the lowest MC. We perform experiments to model the relationships CoR(Vo) using visco-elastic contact models based on Hertz contact theory. The impacts of dry seeds for three crops were best illustrated using three different contact models, for pea - Kuwabara and Kono (1987), soybean Alizadeh et al. (2013) and rapeseed - Hu et al. (2011). For higher MC, models which provide a more nonlinear CoR(V-0) relationship appeared to be more appropriate, i.e. Kuwabara and Kono (1987) for the pea and soybean, while the model of Alizadeh et al. (2013) better described the behaviour of rapeseed. Visco-elastic contact models which were selected using the least-square method provided a very good approximation of CoR(V-0) and impact time t(c)(V-0) relationships, and a sufficiently good approximation of the shape of F-n(t) relationships. (C) 2017 IAgrE. Published by Elsevier Ltd. All rights reserved.