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为明确事故现场可视轮胎印迹强度与车辆动力学特性、轮胎橡胶磨损特征及道路表面灰度之间的关联特性,提出基于车路耦合的事故现场轮胎印迹强度参数化研究方法。通过结合动态滑动摩擦因数模型及轮胎非线性模型,建立车辆路面9 DOF非线性系统动力学模型,运用VBOX惯性测量技术验证模型的有效性。运用胎面磨损能量模型,从车路系统角度确定车辆、轮胎和路面特性对轮胎全局摩擦力及胎面磨损特性的影响。结合印迹强度特征模型提出轮胎印迹强度参数研究方法,选取不同制动、转向角工况及3组路面、胎面特性对轮胎路面接地力学特性、胎面橡胶磨损量、可视轮胎印迹特征进行仿真分析。结果表明:印迹强度仅与全局摩擦力大小有关,与轮胎路面滑移方向无关;滑移工况下胎面橡胶磨损量随着全局摩擦力和滑移速度的增大而增大,而印迹强度变化不明显;制动力矩和道路表面灰度对产生可视轮胎印迹起决定作用,转向角主要影响不规则可视轮胎印迹的产生;前轮轮胎最先出现可视印迹,且可视印迹长度和强度均高于后轮轮胎;采取可视印迹起点作为事故车辆速度判定具有一定的误差,应根据具体情况进行具体分析;研究成果能够为基于可视轮胎印迹的交通事故重建提供理论基础。 相似文献
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基于LuGre模型的轮胎原地转向模型 总被引:2,自引:0,他引:2
基于LuGre摩擦模型的轮胎原地转向模型可表达不同轮胎刚度和载荷、不同输入频率、不同摩擦特性等工况下的回正力矩随转动角的变化关系,适于进行轮胎模型相关实时仿真运算及控制系统研究.讨论了该模型的建立过程和模型参数对轮胎转向特性的影响,进行了参数的辨识及模型仿真计算与试验结果的对比,结果表明二者有较好的一致性. 相似文献
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针对轮毂电机分布式驱动越野车辆在狭小空间快速机动的需求,设计了一种分层结构的原地转向控制策略。基于动力学原理分析了各轮载荷、附着条件对原地转向横摆速度的影响机理,并搭建原地转向运动学模型,上层采用模型预测控制算法设计原地转向理想轨迹以及期望的横摆角速度,开发基于 PI滑模控制的横摆运动跟踪算法,通过补偿转向横摆力矩以提高方向角控制的鲁棒性和稳定性,下层以最优轮胎利用率为目标,设计二次规划算法优化分配各轮附加横摆力矩。dSPACE 硬件在环测试结果表明,所提出的控制算法可在保证稳定性的前提下实现原地转向,大幅提高了车辆的转向机动性,在方向盘动态输入仿真中,车辆最大转弯半径为 0.157 m,转向中心的最大偏移量为 3.610 m;同时,驾驶员能对转向过程进行闭环控制,实现了原地转向过程中横摆速度的实时调节。 相似文献
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非稳态条件下轮胎结构参数对侧向力与回正力矩的影响 总被引:2,自引:0,他引:2
通过非稳态条件下小幅运动(即假设印迹内无滑移发生)时的轮胎侧偏特性在空间域内的仿真,分析了轮胎结构对侧向力与回正力矩的影响,并介绍了非稳态条件下轮胎侧偏特性的仿真表达式及纯转向运动时的仿真数值算法。 相似文献
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针对现有轮式车辆差动转向理论中未考虑胎体扭转特性和稳态差动转向动力学特性的问题,结合分布驱动轮式车辆结构特点,进行基于轮胎扭转和侧偏特性的轮式车辆差动转向动力学特性研究。通过建立单轴和双轴分布驱动轮式车辆动力学模型,分析轮胎与路面相互作用机理和稳态差动转向形成过程;讨论胎体扭转和横向变形引起的车轮回正力矩与侧偏力、侧向外力和车辆结构尺寸等对车辆稳态差动转向过程的影响。结果显示,轮胎扭转迟滞及其产生的回正力矩对稳态差动转向影响较大;双轴轮式车辆差动转向过程为侧偏与侧滑的耦合作用,其差动转向的必要条件为轮距大于轴距。 相似文献
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分析了各种常用轮胎模型的特点与应用范围,根据汽车操纵动力学研究的需求,在Matlab环境下运用魔术公式建立了轮胎动力学模型,并对汽车轮胎力与纵向滑移率,纵向力、侧向力及回正力矩与纵向滑移率、侧偏角、外倾角、垂直载荷的关系等轮胎特性进行了仿真分析,实验结果表明,魔术公式轮胎动力学模型可以较好地模拟轮胎的动力学特性,适用于车辆动力学研究领域。 相似文献
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轮胎非稳态转向特性非线性仿真模型 总被引:2,自引:1,他引:2
本文以轮与路面之间的滑移速度为出发点,在稳态指数统一模型的基础上,建立了轮胎非稳态转向特性非线性仿真模型。在实验研究中,发现了动态过程回正力臂和附加的回正力矩的滞后特性。仿真和试验结果对比表明,该模型足以反映轮胎非线性转向特性,可用于前轮及汽车操纵动力学仿真方面的研究。 相似文献
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Jo ko Deur Jahan Asgari Davor Hrovat 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2004,42(3):133-173
The use of advanced dynamic friction models can improve the brush-type tire friction models. This paper presents a 3D dynamic brush model based on the LuGre friction model. The model describes the dynamics of longitudinal and lateral tire friction forces, as well as the self aligning torque dynamics. It has been originally derived in a distributed-parameter form, and then transformed to a simpler lumped-parameter form with only three internal states. Both uniform and non-uniform normal pressure distributions are considered. The model has analytical solution for steady-state conditions. The steady-state behavior is validated with respect to “magic” formula static model, which served as an “ideal” benchmark. The lumped model dynamic behavior is validated by comparing its time-responses with original distributed model responses. The model parameterization with respect to normal force and other tire/road parameters is considered as well. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(3):133-173
The use of advanced dynamic friction models can improve the brush-type tire friction models. This paper presents a 3D dynamic brush model based on the LuGre friction model. The model describes the dynamics of longitudinal and lateral tire friction forces, as well as the self aligning torque dynamics. It has been originally derived in a distributed-parameter form, and then transformed to a simpler lumped-parameter form with only three internal states. Both uniform and non-uniform normal pressure distributions are considered. The model has analytical solution for steady-state conditions. The steady-state behavior is validated with respect to “magic” formula static model, which served as an “ideal” benchmark. The lumped model dynamic behavior is validated by comparing its time-responses with original distributed model responses. The model parameterization with respect to normal force and other tire/road parameters is considered as well. 相似文献
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为提高汽车主动安全系统自适应控制性能,需要对轮胎/路面附着系数进行精确的识别或估算。鉴于附着系数估计的复杂性,文章综述了目前路面附着系数估算中的汽车动力学建模和轮胎/路面摩擦模型建模,重点讨论了轮胎/路面附着系数识别算法中传感器的直接检测估计法,以及基于车辆动力学、回正力矩和状态观测器等动力学模型的估计算法,并对各估算方法存在的问题与发展趋势等进行了分析。对开发汽车主动安全电控系统和提高汽车产业核心竞争力具有重要意义。 相似文献
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Y.Q. Wang Doctoral candidate R. Gnadler Professor Dr.-Ing. R. Schieschke 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1994,23(1):149-163
A mathematical model of a two-dimensional contact patch of pneumatic tires rolling over a rigid flat road surface at arbitrary slip and camber angles has been developed. The model is simple in concept, contains few parameters and is applicable to any tire simulation models. In addition to tire geometric parameters and vertical deflection, the carcass camber angle is introduced in the model. This angle is alone responsible for the asymmetric shape of the tire contact patch when the tire undergoes a lateral force. The computed contact patches agree well with the measured patches of an automotive tire at different slip and camber angles. Lastly, the influence of the contact patch geometry on the tire cornering and aligning properties has been discussed through a computational example. It has been shown that the effect of tire contact patch geometry on the steady state behavior is rather remarkable. 相似文献
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William A. Podgorski Allan I. Krauter Richard H. Rand 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1975,4(1):9-41
The equations of motion are derived for a single wheel steerable pneumatic tire system. Included in this system are a built-in wheel wobble and wheel-tire irregularities which produce oscillation of the normal load. Special emphasis is placed on the dynamic characterization of the tire cornering force and aligning torque. The results show that the built-in wheel wobble causes a steady shimmy which is large when the wheel rotation frequency is close to the natural shimmy frequency. The results also show that a normal load oscillation which has a frequency approximately twice the natural shimmy frequency causes a decrease in shimmy stability. 相似文献