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石先明 《铁道标准设计通讯》2018,(5):162-165
高速铁路异物侵限监测系统是高速铁路重要的基础设施,其监测网的安装范围正确与否将直接关系到高速铁路的运输安全,原铁道部运输局2010年颁布的《高速铁路防灾安全监控系统-公跨铁立交桥异物侵限监测方案》提供了公跨铁立交桥异物侵限监测电网设置范围的计算公式。通过举例分析发现,当公跨铁立交桥与铁路线的夹角大于70°时,该计算公式得出的计算结果偏小,甚至还会出现负值的不合理现象,对高速铁路运营安全产生不利影响,因此有必要对该计算公式进行修改完善。根据公跨铁立交桥与铁路线的夹角大小分(0,70°)、[70°,90°)、[90°,180°)三个区间进行讨论,并利用三角函数法,研究得出一整套新的计算公式。研究成果表明,用新的计算公式得出的公跨铁立交桥异物侵限监测电网设置范围更加科学合理,提高了高速铁路异物侵限监测系统的安全监控性能。 相似文献
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随着电磁波测距仪、全站仪的普及,EDM三角高程测量越来越受到关注,应用范围也不断扩大。本文仅结合一些工作中的实例作了简略的阐述。 相似文献
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热油管道输送含蜡原油的轴向温降计算 总被引:4,自引:2,他引:2
在含蜡原油热油管道输送工艺计算中,根据比热容随温度变化的趋势,得出3个不同温度区域内的比热容表达式,分别将其代入能量平衡方程中,推导出热油管道输送含蜡原油的轴向温降公式,将其与苏霍夫温降公式进行对比。结果表明:应用该公式能更精确的计算出热站间距、出站温度,减少不必要的损失。 相似文献
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对几组不同配方的胶粉改性沥青进行了性能对比研究,确定了最佳搅拌剪切温度、最佳搅拌剪切时间,研究了稳定剂、相溶剂对胶粉改性沥青储存稳定性的影响,对胶粉改性沥青的加工与应用具有一定的指导作用。 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(2):154-178
Tyre models are a prerequisite for any vehicle dynamics simulation. Tyre models range from the simplest mathematical models that consider only the cornering stiffness to a complex set of formulae. Among all the steady-state tyre models that are in use today, the Magic Formula tyre model is unique and most popular. Though the Magic Formula tyre model is widely used, obtaining the model coefficients from either the experimental or the simulation data is not straightforward due to its nonlinear nature and the presence of a large number of coefficients. A common procedure used for this extraction is the least-squares minimisation that requires considerable experience for initial guesses. Various researchers have tried different algorithms, namely, gradient and Newton-based methods, differential evolution, artificial neural networks, etc. The issues involved in all these algorithms are setting bounds or constraints, sensitivity of the parameters, the features of the input data such as the number of points, noisy data, experimental procedure used such as slip angle sweep or tyre measurement (TIME) procedure, etc. The extracted Magic Formula coefficients are affected by these variants. This paper highlights the issues that are commonly encountered in obtaining these coefficients with different algorithms, namely, least-squares minimisation using trust region algorithms, Nelder–Mead simplex, pattern search, differential evolution, particle swarm optimisation, cuckoo search, etc. A key observation is that not all the algorithms give the same Magic Formula coefficients for a given data. The nature of the input data and the type of the algorithm decide the set of the Magic Formula tyre model coefficients. 相似文献
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Pacejka's Magic Formula Tyre Model is widely used to represent force and moment characteristics in vehicle simulation studies meant to improve handling behaviour during steady-state cornering. The experimental technique required to determine this tyre model parameters is fairly involved and highly sophisticated. Also, total test facilities are not available in most countries. As force and moment characteristics are affected by tyre design attributes and tread patterns, manufacturing of separate tyres for each design alternative affects tyre development cycle time and economics significantly. The objective of this work is to identify the interactions among various tyre design attributes-cum-operating conditions and the Magic Formula coefficients. This objective is achieved by eliminating actual prototyping of tyres for various design alternatives as well as total experimentation on each tyre through simulation using finite element analysis. Mixed Lagrangian–Eulerian finite element technique, a specialized technique in ABAQUS, is used to simulate the steady-state cornering behaviour; it is also efficient and cost-effective. Predicted force and moment characteristics are represented as Magic Formula Tyre Model parameters through non-linear least-squares fit using MATLAB. Issues involved in the Magic Formula Tyre Model representation are also discussed. A detailed analysis is made to understand the influence of various design attributes and operating conditions on the Magic Formula parameters. Tread pattern, tread material properties, belt angle, inflation pressure, frictional behaviour at the tyre–road contact interface and their interactions are found to significantly influence vehicle-handling characteristics. 相似文献
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