考虑热动力学的湿式离合器摩擦控制导向建模

IF 3.1 3区 计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS
Seungin Shin , Seibum B. Choi
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引用次数: 0

摘要

本文介绍了一种以控制为导向的湿式离合器摩擦建模方法,考虑了热动力学因素,重点关注纸基摩擦衬片。此类离合器的突然啮合可能会导致不适并缩短整体使用寿命。由于传感器受限和建模不准确,反馈控制存在局限性,这凸显了采用精确可逆模型的基于模型控制的有效性。本研究广泛探讨了滑移控制中最大的模型不确定性--离合器摩擦。提出的模型整合了库仑摩擦系数,并纳入了压紧力、摩擦速度和摩擦表面温度等变量。所提出的扭矩模型可以进行模型反演,从而根据扭矩要求确定所需的油压。184 组实验数据验证了模型的准确性,重点是温度效应。库仑摩擦系数模型显示了指数和线性成分,捕捉到了斯特里贝克效应和温度变化。通过实验对模型进行验证,结果表明二者吻合度很高,支持其在湿式离合器控制性能方面的有效性。这项研究有助于深入了解湿式离合器摩擦模型,从而实现基于模型的控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Control-oriented modeling of wet clutch friction considering thermal dynamics

The paper presents a control-oriented modeling method for wet clutch friction, considering thermal dynamics, with a focus on paper-based friction linings. Abrupt engagements of such clutches may lead to discomfort and reduce the overall lifespan. The limitations of feedback control, attributed to restricted sensors and modeling inaccuracies, underscore the effectiveness of model-based control employing precise and invertible models. The study extensively explores the largest model uncertainty in slip control—clutch friction. The proposed model integrates the Coulomb friction coefficient, incorporating variables such as pressing force, friction speed, and the temperature of the friction surface. The proposed torque model enables model inversion, allowing the determination of desired oil pressure from torque requirements. Experimental data, comprising 184 sets, validate the model accuracy, with a focus on temperature effects. The Coulomb friction coefficient model exhibits exponential and linear components, capturing the Stribeck effect and temperature variations. Model verification through experiments demonstrates good agreement, supporting its efficacy for wet clutch control performance. The study contributes insights into wet clutch friction models for model-based control.

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来源期刊
Mechatronics
Mechatronics 工程技术-工程:电子与电气
CiteScore
5.90
自引率
9.10%
发文量
0
审稿时长
109 days
期刊介绍: Mechatronics is the synergistic combination of precision mechanical engineering, electronic control and systems thinking in the design of products and manufacturing processes. It relates to the design of systems, devices and products aimed at achieving an optimal balance between basic mechanical structure and its overall control. The purpose of this journal is to provide rapid publication of topical papers featuring practical developments in mechatronics. It will cover a wide range of application areas including consumer product design, instrumentation, manufacturing methods, computer integration and process and device control, and will attract a readership from across the industrial and academic research spectrum. Particular importance will be attached to aspects of innovation in mechatronics design philosophy which illustrate the benefits obtainable by an a priori integration of functionality with embedded microprocessor control. A major item will be the design of machines, devices and systems possessing a degree of computer based intelligence. The journal seeks to publish research progress in this field with an emphasis on the applied rather than the theoretical. It will also serve the dual role of bringing greater recognition to this important area of engineering.
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