Development and Validation of a Scaled Electric Combat Vehicle Tire Model

Pneumatic tire modeling and validation have been the topic of several research papers, however, most of these papers only deal with pneumatic passenger and truck tires. In recent years, wheeled-scaled vehicles have gained lots of attention as a feasible testing platform, nonetheless up to the authors’ knowledge there has been no research regarding the use of scaled tires and their effect on the overall vehicle performance characteristics. This paper presents a novel scaled electric combat vehicle tire model and validation technique. The pro-line lockdown tire size 3.00 × 7.35 is modeled using the Finite Element Analysis (FEA) technique and several materials including layered membrane, beam elements, and Mooney-Rivlin for rubber. The tire-rim assembly is then described, and the rigid body analysis is presented. The tire is then validated using an in-house custom-made static tire testing machine. The tire test rig is made specifically to test the pro-line tire model and is designed and manufactured in the laboratory. The tire is validated using vertical stiffness and footprint tests in the static domain at different operating conditions including several vertical loads. Then the tire is used to perform rolling resistance and steering analysis including the rolling resistance coefficient and the cornering stiffness. The analysis is performed at different operating conditions including longitudinal speeds of 5, 10, and 15 km/h. This tire model will be further used to determine the tractive and braking performance of the tire. Furthermore, the tire test rig will also be modified to perform cornering stiffness tests.

Study of the Evolution of Properties of Concrete Containing Used Tire Aggregates

Concrete is generally composed of cement, water, gravel, and sand. However, some research focuses on substituting aggregates with waste materials. In this study, used tires are used as a substitute for gravel. Characteristics such as tensile strength, compressive strength, and porosity were monitored at 7, 14, and 28 days of maturation. The results show that aggregates made from used tires are suitable for concrete production and can replace natural gravel. Regarding the formed concrete, low substitution rates lead to improved concrete properties, but only at an early age. A reaction between the cement and rubber could be the underlying cause. Additionally, the products of this reaction may mitigate the evolution of the compressive strength of the concrete over time.

汽车轮胎滚动阻力研究综述

汽车轮胎稳态滚动阻力作为轮胎力学特性之一,对汽车的动力性、燃油经济性、制动性、操纵稳定性以及轮胎使用寿命等具有重要影响。阐述了轮胎滚动阻力产生机理,总结了轮胎滚动阻力的试验测量、数值仿真和理论计算方法;分析了车轮结构参数及材料属性对轮胎滚动阻力的影响;指出了汽车轮胎滚动阻力研究的技术挑战及发展趋势,可为轮胎滚动阻力的研究提供一定的参考。

Non-Pneumatic Tire Design and Modeling: An Overview of Research

The research provides valuable insights into the intricate world of Non-Pneumatic (NP) tire technology, covering various facets from modeling and validation to material properties, design optimization, and tire-soil interactions. It begins with an exploration of existing NP tire modeling techniques, emphasizing the importance of accurate and reliable models for NP tires, including static and dynamic validation methods, and demonstrating the influence of structural features and material properties on tire performance. The review emphasizes the challenges and prospects of NP tires and aims to support the development of innovative airless tire solutions. The reviewed papers collectively contribute to a deeper understanding of NP tires, their applications, and potential enhancements in performance and efficiency across various industries.

Determination of the Sound Absorption Capacity of Hydraulic Concrete Mixtures Added with Waste Tire Rubber

There are different types of pollutants that are harmful to the environment, including smog, chemicals that are dumped into rivers, scrap tires, etc. The latter have the particularity that it is not possible to recycle them to manufacture new tires. In the present work, hydraulic concrete plates added with waste tire rubber were manufactured to modify their sound absorption capacity. It was found that the rubber additions produce changes in the density of the material and in the sound absorption capacity. When the material is exposed to high-frequency sounds that correspond to high-pitched sounds, its absorption capacity increases. On the contrary, when the test frequency is low, that is, bass sounds, the sound absorption capacity decreases. The results obtained in this work suggest that the proposed mixtures are suitable for the possible manufacture of acoustic insulating shields.

BFRP筋回收轮胎钢纤维混凝土黏结性能分析

对玄武岩纤维增强复合材料(BFRP)筋在回收轮胎钢纤维(RTSF)混凝土中的黏结性能进行了试验和分析研究.对不同RTSF体积掺量、BFRP筋直径和嵌入长度的试件进行了拉拔试验,研究其对黏结破坏模式、黏结滑移响应和黏结强度的影响,并提出了BFRP筋RTSF混凝土的黏结滑移理论模型.结果表明:BFRP筋RTSF混凝土黏结破坏类型包括拔出破坏、劈裂破坏以及拔出且劈裂破坏;BFRP筋直径对黏结破坏模式无显著影响,而RTSF体积掺量、BFRP筋直径和嵌入长度均对黏结强度有较大影响,且RTSF体积掺量与极限黏结强度呈正相关,BFRP筋直径和嵌入长度对其影响与之相反;当RTSF体积掺量从0增大至1.5%时,其极限黏结强度最大可提高约23.87%.与已有模型相比,所提出的黏结滑移理论模型对BFRP筋RTSF混凝土的黏结滑移曲线具有更高的拟合精度.

超声波脱硫再生胶对NR/SSBR/BR胎面胶性能的影响

将具有较高脱硫程度的超声波脱硫轮胎胶粉再生胶(DGTR)加入到天然橡胶/溶聚丁苯橡胶/高顺式顺丁橡胶(NR/SSBR/BR)胎面胶料中,研究了DGTR用量对胎面橡胶复合材料流变性能、硫化特性和力学性能的影响。流变性能测试结果表明,随着DGTR用量的增加,在较低频率下复合材料的黏度和储能模量增加,损耗因子降低,说明DGTR能改善填料在橡胶基体中的分散,降低胎面胶滚动阻力。硫化特性和力学性能结果表明,DGTR的加入能缩短胎面胶料的硫化时间,并提高其撕裂强度和300%定伸应力;当其用量不超过20份时,对胎面胶料拉伸强度影响较小。

基于流固耦合的轮胎花纹滑水性能研究

以205/55 R16型号轮胎为研究对象,基于Abaqus CEL流固耦合方法构建轮胎滑水有限元模型。将模拟得到的轮胎垂直刚度与实验数据进行对比,验证轮胎模型可靠性的前提下,优化欧拉域,更好地捕捉并分析轮胎滑水时水流印迹特征。结合NASA经验公式评估模拟得到的临界滑水速度,验证轮胎滑水模型可靠性,分析不同充气压力和水膜厚度对轮胎临界滑水速度的影响。通过引入V型横向花纹和增加F1 Nose结构优化轮胎花纹结构,验证花纹沟槽子模型优化合理性,对比优化前、后轮胎临界滑水速度和水流压力。结果表明:此优化方法能有效提高轮胎的滑水性能。

用于轮胎振动分析的壳模型优化研究

虽然现有壳模型在0~500 Hz频带内精度高,适合用于轮胎结构振动分析,但由于模型中耦合了胎侧二维壳模型,导致胎冠振动模态难以分离,且模型自由度和所需输入参数增加。本文对该壳模型进行改进:在保持胎冠壳模型不变的基础上,应用轮胎环模型和板模型中对胎侧的近似方法,采用弹性基底代替胎侧二维壳模型,简化了原模型的边界条件并缩减了输入参数个数;针对改进后的壳模型建立了求解方法,实现了胎冠模态频率和振型的求解。并通过与实验数据的对比,验证了改进后的壳模型及其求解方法的正确性。

Waste Recovery and Sustainable Development. A Case Study of Material Development from Used Tires in Africa

This paper outlines a mechanical transformation process for rubber recycling, demonstrating the development of a new material from used tires. With the crumbs obtained using a crusher-compactor, a novel material for the manufacture of O-rings has been developed, with properties close to those found on the market. The process includes an experimental methodology of a sulfur vulcanization system choice and the quantification of ingredients, as well as the experimental determination of cure parameters. Mechanical tests on the samples completed the work by providing the mechanical characteristics of both unaged and aged (thermo-oxidative ageing) novel material. This process has a high potential for sustainable development and industrialization, making it a valuable contribution to the recycling of rubber in African developing countries.

非充气轮胎的滚动越障振动仿真分析

采用仿真分析方法探究非充气轮胎的滚动越障振动特性。建立非充气轮胎的有限元模型,对辐条式原始非充气轮胎(简称原始轮胎)和轮辐仿生优化非充气轮胎(简称优化轮胎)的滚动越障振动进行仿真分析,研究滚动速度和障碍物高度对原始轮胎和优化轮胎的径向和纵向振动的影响,以及两种轮胎的振动特性与其滚动越障时接地压力峰值标准差之间的关系。结果表明:越障时滚动速度和障碍物高度的增大会加剧非充气轮胎的径向和纵向振动;与原始轮胎相比,优化轮胎的减振效果主要体现在滚动速度和障碍物高度变化时其振动特性较为平稳;接地压力峰值标准差能够在一定程度上表征非充气轮胎的振动强度。非充气轮胎的滚动越障振动仿真分析为其动态特性研究奠定了一定的理论基础,对提高车辆的稳定性具有重要的意义。

应用新结构、新材料开发配套低滚动阻力轮胎

应用新结构、新材料开发配套12R22.5 C600低滚动阻力轮胎。应用超高强度骨架材料,胎体采用0.17+5×0.215+10×0.235CCST钢丝帘线,带束层采用4+3×0.35ST钢丝帘线,钢丝包布采用0.17+5×0.215+10×0.235CCST钢丝帘线;优化配方设计,胎面胶采用低滚动阻力胶料,基部胶采用低滞后损失胶料;优化胎冠弧设计以及胎肩和胎圈部位材料分布。成品轮胎的充气外缘尺寸符合国家标准要求,耐久性能良好,滚动阻力达到欧盟标签C级,满足客户的需求,轮胎装车后行驶里程达到20万km,与普通轮胎相比,平均每百公里可节油1.13 L。

基于自主漂移的自动驾驶车辆极限工况轨迹规划与控制

为兼顾自动驾驶车辆在极限工况下的稳定性与轨迹跟踪性能,提出了一种基于自主漂移的自动驾驶车辆轨迹规划与控制方法。基于神经网络设计了神经网络轮胎动力学模型,提升了传统魔术轮胎公式的精度。为进一步拓展自动驾驶车辆极限工况下的稳定边界,基于漂移时轮胎饱和及最大侧滑特性结合质心侧偏角-横摆角速度相平面约束设计了漂移稳定边界,采用非线性模型预测控制(NMPC)在更大稳定范围内规划了安全漂移轨迹,并对规划轨迹进行了漂移跟踪控制。Simulink/CarSim联合仿真结果表明,该方法可充分利用漂移运动优势,在极限工况下确保车辆不发生失控,同时准确跟踪期望轨迹。

基于Simulink轮胎跳动对重型车转向特性影响分析

转向过程轮胎受地面载荷影响呈现跳动,而其对车辆稳定转向产生重要影响。车辆与地面间的接触是通过轮胎得以实现,轮胎受力直接影响到车辆转向稳定性。选用重型车辆轮胎外倾时的受力进行分析,基于此,对空载和满载工况下,高低速转向时的转角偏差进行分析;并对空载和满载工况下,转向时,车轮的摆动误差及滑移量进行分析,获取不同工况下各参数最优的数学模型;根据数学模型分析,基于Simulink搭建包含承载特性的转向系统模型,以此分析不同转速条件下轮胎的受力和轮胎跳动对转向的影响;应用实际车辆,选取双移线转向工况,对比分析运行轨迹和转角关系的差异,以此验证数学模型和仿真分析的可靠性。结果可知:在转向过程中,各轮胎的侧向力变化趋势基本一致;随着车速的增加,在转向过程中各轮胎所受的侧向力也呈现增加的趋势;随着速度的增加,前轴内侧轮胎受力先减小后增加;满载时,车轮跳动对车轮摆动误差的影响随着车轮转角增大而增大,而空载时,则影响更大,变化趋势也更复杂;实车测试与仿真轨迹基本保持一致,且外侧轮转向角曲线基本无较大变化,保持一致特性,误差小于3%,表明数学模型和仿真分析的准确性,为此类设计提供参考。

国产溶聚丁苯橡胶在半钢子午线轮胎胎面胶中的应用

研究国产溶聚丁苯橡胶(SSBR)在半钢子午线轮胎胎面胶中的应用。结果表明:与进口SSBR胶料相比,国产SSBR胶料的硫化特性、物理性能和耐臭氧老化性能相当;成品轮胎的高速性能和耐久性能均通过测试,滚动阻力相当,干地和湿地制动性能可满足使用要求,且可降低材料成本。

爆胎车辆动力学分析及模糊PID控制优化策略研究

车辆通过控制系统提高行驶的稳定性,但在爆胎时容易导致车辆行驶失去稳定性,从而造成车辆发生侧翻现象。为改善车辆动力学控制系统输出效果,建立了车辆轮胎动力学模型。引用模糊比例-积分-微分(PID)控制器,给出了模糊PID控制器输出参数与误差和误差变化率的关系图。提出人群搜索算法,利用人群搜索算法迭代搜索原理对模糊PID控制器参数进行寻优。以车辆2种行驶路况为例,利用Matlab软件对爆胎车辆的稳定性进行仿真,比较和分析爆胎车辆优化控制系统的输出效果。结果显示:采用模糊PID控制系统,爆胎车辆产生的偏航角、俯仰角加速度和侧倾角加速度较大。采用人群搜索算法优化模糊PID控制系统,爆胎车辆产生的偏航角、俯仰角加速度和侧倾角加速度较小。爆胎车辆采用人群搜索算法优化后的模糊PID控制器,不仅响应速度快,而且行驶的稳定性较好。

复方苦参注射液联合西黄丸对晚期结直肠癌姑息治疗患者癌性疼痛和疲乏中位生存期及并发症发生率影响

目的:探讨复方苦参注射液联合西黄丸对晚期结直肠癌姑息治疗患者癌性疼痛和疲乏、中位生存期及并发症发生率影响。方法:将2020年1月至2021年5月成都医学院第一附属医院收治的153例晚期结直肠癌患者随机分为对照组(常规姑息治疗)、单药组(常规姑息治疗+西黄丸)、联合组(常规姑息治疗+西黄丸+复方苦参注射液),各51例。比较三组治疗前、治疗1个周期及治疗3个周期后癌性疼痛[疼痛数字分级法(NRS)]、癌因性疲乏[Piper疲乏修订量表(PFS-R)]、生存情况[功能状态评分(KPS)]评分、炎症因子[白细胞介素-6(IL-6)、C反应蛋白(CRP)、IL-8、IL-1β]、免疫功能(总T淋巴细胞、总B淋巴细胞、NK细胞),并比较三组肿瘤控制效果、并发症、毒副反应及中位生存期。结果:联合组肿瘤稳定占比高于对照组、单药组,且单药组高于对照组,进展患者占比低于单药组、对照组,且单药组低于对照组(P<0.05);联合组治疗1个、3个周期后NRS评分、PFS-R评分低于单药组、对照组,且单药组低于对照组,KPS评分高于单药组、对照组,且单药组高于对照组(P<0.05);联合组治疗1个、3个周期后总T淋巴细胞、总B淋巴细胞、NK细胞高于单药组、对照组,且单药组高于对照组(P<0.05);联合组治疗1个、3个周期后IL-6、CRP、IL-8、IL-1β低于单药组、对照组,且单药组低于对照组(P<0.05);联合组便秘、失眠、肠梗阻、肠出血、低热、感染发生率低于单药组、对照组,单药组便秘、失眠、肠梗阻、低热、感染发生率低于对照组(P<0.05);联合组恶心呕吐、骨髓抑制发生率低于单药组、对照组,且单药组低于对照组(P<0.05);随访2年,均失访2例,联合组死亡7例,单药组死亡20例,对照组死亡34例。联合组、单药组、对照组中位生存期分别为18、14、13个月,联合组中位生存期长于单药组、对照组(P<0.05)。结论:复方苦参注射液联合西黄丸可有效减轻晚期结直肠癌姑息治疗患者癌性疼痛和疲乏,改善患者生存质量,提高免疫功能,降低炎症反应及并发症发生率。

苯酚-甲醛树脂MK-95在轿车子午线轮胎胎体胶中的应用

研究苯酚-甲醛树脂MK-95(简称MK-95)在轿车子午线轮胎胎体胶中的应用。结果表明:MK-95不含游离间苯二酚和其他添加剂,其软化点和挥发分含量低于间苯二酚-甲醛树脂;在胎体胶中以MK-95等量替代间苯二酚-甲醛树脂,胶料的硫化特性、物理性能、动态力学性能和粘合性能相当,成品轮胎的高速、耐久和路试性能均达到要求。

矿用重载轮胎接地印痕的研究

以14.00R25宽体自卸车轮胎为例,通过轮胎使用情况调研,结合实验室测试和轮胎有限元仿真,研究矿用重载轮胎接地印痕及接地压力分布。结果表明:宽体自卸车轮胎接地印痕形状应接近矩形且接地压力分布均匀;影响轮胎接地印痕及接地压力分布的主要因素为断面高宽比、胎冠弧半径和弧度高、带束层角度和宽度、花纹沟壁角度和花纹沟宽度等。通过有限元仿真优化设计可避免轮胎出现花纹掉块和非均匀磨损等问题,提高设计效率。

矿用重载轮胎趾口空问题的研究

通过市场返回轮胎断面剖析,结合有限元仿真分析造成矿用重载轮胎趾口空的原因,并提出相应的解决措施。通过采取适当减小胎圈内直径,适当增大胎圈与轮辋过盈量、三角胶尺寸、胎体反包高度,提高耐磨胶的硬度和耐老化性能,在推荐充气压力和负荷范围内使用轮胎及在车辆上安装液压减速器以降低刹车片使用频次等措施,可降低趾口空发生率,延长轮胎使用寿命。