高速列车轮轨减振降噪理论与方法研究

项目名称： 高速列车轮轨减振降噪理论与方法研究

项目编号： No.U1434201

项目类型： 联合基金项目

立项/批准年度： 2015

项目学科： 机械、仪表工业

项目作者： 温泽峰

作者单位： 西南交通大学

项目金额： 275万元

中文摘要： 轮轨噪声是高速列车运行中产生的最主要噪声源之一，然而，由于轮轨间噪声产生及传递机理的极端复杂性，使得高速列车轮轨减振降噪成为目前高速铁路发展中亟待解决的重要学术和工程技术难题。鉴于此，本项目拟综合运用车辆-轨道耦合动力学理论与声辐射理论，结合数值分析、现场试验和室内试验，首先建立时域下高速轮轨非线性振动噪声预测模型，揭示高速列车轮轨振动噪声产生机制；进而建立高速列车转向架系统多级结构传声路径分析模型和车体铝型材结构的传声分析模型，研究高速轮轨振动噪声在转向架和车体上的传递机制，明确关键传递路径及其关键部件。在此基础上，从高速轮轨振动噪声产生机制及传递路径等方面，综合性提出高速列车减振降噪的有效措施。研究成果对于提升高速列车运行品质、完善高速列车系统动力学基础理论和研究体系具有重要的理论和工程意义，并可为我国高速列车优化设计提供直接的理论指导和借鉴。

中文关键词： 高速列车；轮轨相互作用；振动；噪声

英文摘要： Wheel/rail noise is one of the most important noise sources which are induced during high-speed train operation. However, due to the complexity of wheel/rail dynamic interactions and sound transmission properties, the reduction of wheel/rail vibration and noise has been an open issue of both academic and industry, which stands in front of high-speed train’s development and need to be solved imminently. Under this situation, this project targets to provide systematically efficient solutions for the reduction of wheel/rail vibration and noise. The research will mainly focus on two aspects, i.e., the noise reduction at the source, and that at the transmission path. To achieve this goal, the research will be based on the theoretical analysis, such as the vehicle-track coupling dynamics theory and acoustic radiation theory, numerical simulation, field- and lab-experiments, etc. For the aspect of noise reduction at the source, the wheel/rail nonlinear vibration and noise model in time domain will be developed. This model is then used to investigate the generation mechanism of wheel/rail vibration and noise of high-speed trains. For the aspect of noise reduction from the path, in order to investigate the transmission mechanisms of bogie and car-body under the high-speed wheel/rail vibration and noise excitations, and to find the critical vibration energy transfer paths of structure, both the structure-borne sound multi-level transfer path analysis model of bogie and the sound transmission property analysis model of vehicle’s extruded aluminum structure are set up simultaneously. The research results will not only improve the ride comfort of high-speed trains, but also complete the fundamental theory and research system of high-speed train system dynamics. Moreover, the relative results will provide a solid theoretical basis for the optimal design of Chinese high-speed train.

英文关键词： NULL