Parameter identification of DEM-FEM coupling model to simulate traction behavior of tire-soil interaction

IF 2.4 3区 工程技术 Q3 ENGINEERING, ENVIRONMENTAL
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引用次数: 0

Abstract

This paper presents a novel parameter identification method for DEM-FEM coupling model to investigate the trafficability of off-road tires on granular soils. Initially, an experimental device is developed to measure the bulk responses of granular materials i.e., angles of repose and shear. A series of numerical tests, including the Plackett-Burman tests, steepest-climbing tests and three-factor orthogonal tests, are then performed to formulate the mathematical regression and constraint equations. These equations establish the correlation between the three key model input parameters (namely, coefficients of static friction of acrylic wall-particle and particles, and coefficient of restitution of acrylic wall-particle) and the aforementioned bulk responses. After that, the non-dominated sorting genetic algorithm II (NSGA-II) is implemented to iteratively calculate the equations based on the multi-objective optimization method to obtain the optimal solution set. Finally, the effectiveness and feasibility of the parameter identification method are confirmed by comparing the results of indoor soil-bin tests and the corresponding numerical simulations in terms of tire sinkage, ruts and soil deformation and flow.

模拟轮胎与土壤相互作用牵引行为的 DEM-FEM 耦合模型的参数识别
本文提出了一种新颖的 DEM-FEM 耦合模型参数识别方法,用于研究越野轮胎在颗粒土上的可通行性。首先,开发了一种实验装置来测量颗粒材料的体积响应,即休止角和剪切角。然后进行一系列数值试验,包括 Plackett-Burman 试验、最陡爬坡试验和三因素正交试验,以制定数学回归和约束方程。这些方程确定了三个关键模型输入参数(即丙烯酸壁-颗粒和颗粒的静摩擦系数以及丙烯酸壁-颗粒的弹性系数)与上述体积响应之间的相关性。然后,基于多目标优化方法,采用非支配排序遗传算法 II(NSGA-II)对方程进行迭代计算,以获得最优解集。最后,通过对比室内土箱试验结果和相应的数值模拟结果,从轮胎下沉、车辙和土壤变形及流动等方面证实了参数识别方法的有效性和可行性。
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来源期刊
Journal of Terramechanics
Journal of Terramechanics 工程技术-工程:环境
CiteScore
5.90
自引率
8.30%
发文量
33
审稿时长
15.3 weeks
期刊介绍: The Journal of Terramechanics is primarily devoted to scientific articles concerned with research, design, and equipment utilization in the field of terramechanics. The Journal of Terramechanics is the leading international journal serving the multidisciplinary global off-road vehicle and soil working machinery industries, and related user community, governmental agencies and universities. The Journal of Terramechanics provides a forum for those involved in research, development, design, innovation, testing, application and utilization of off-road vehicles and soil working machinery, and their sub-systems and components. The Journal presents a cross-section of technical papers, reviews, comments and discussions, and serves as a medium for recording recent progress in the field.
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