An integrated framework for high-performance, high-fidelity simulation of ground vehicle-tyre-terrain interaction

Q3 Engineering

International Journal of Vehicle Performance Pub Date : 2019-07-03 DOI:10.1504/IJVP.2019.10021232

R. Serban, D. Negrut, A. Recuero, P. Jayakumar

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引用次数: 5

Abstract

Assessing the mobility of off-road vehicles is a complex task that most often falls back on semi-empirical approaches to quantify the tire-terrain interaction. We introduce a high-fidelity ground vehicle mobility simulation framework that uses physics-based models of the vehicle, tyres, and terrain to factor in both tyre flexibility and soil deformation. The tyres are modelled using a nonlinear finite element approach that involves layers of orthotropic shell elements. The soil is represented as a large collection of rigid elements that interact through contact, friction, and cohesive forces. The high-fidelity vehicle models incorporate suspension, steering, driveline, and powertrain models. To alleviate the prohibitive computational costs associated with a coupled simulation of the overall problem, we propose a decoupled approach implemented as an explicit, force-displacement co-simulation framework which is demonstrated on several full-vehicle on soft soil simulations. UNCLASSIFIED: Distribution Statement A. Approved for public release; distribution is unlimited. #28937.

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一种用于地面-车辆-轮胎-地形交互的高性能高保真度模拟的集成框架

评估越野车的机动性是一项复杂的任务，通常依靠半经验方法来量化轮胎与地形的相互作用。我们介绍了一个高保真地面车辆机动性模拟框架，该框架使用基于物理的车辆、轮胎和地形模型来考虑轮胎灵活性和土壤变形。使用非线性有限元方法对轮胎进行建模，该方法包括正交各向异性壳体单元层。土壤表现为通过接触、摩擦和内聚力相互作用的刚性元件的大量集合。高保真度车辆模型包括悬架、转向、动力传动系统和动力传动系统模型。为了减轻与整体问题的耦合模拟相关的高昂计算成本，我们提出了一种解耦方法，该方法作为一个显式的力-位移协同模拟框架实现，并在软土上的几次整车模拟中进行了演示。未分类：分发声明A.批准公开发布；分发是无限的#28937

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来源期刊

International Journal of Vehicle Performance Engineering-Safety, Risk, Reliability and Quality

CiteScore

2.20

自引率

0.00%

发文量