1) air spring
空气弹簧
1.
Novel design of rubber molding for air spring;
空气弹簧橡胶模具的独特设计
2.
Influence of air spring on curve negotiating property of vehicle;
空气弹簧对车辆曲线通过性能的影响
3.
Analysis of the shock isolation performance for air spring with inside rubber support;
内置橡胶支撑体空气弹簧冲击隔离分析
2) air-spring
空气弹簧
1.
Study on dynamic characteristics of air-spring vibration isolator;
空气弹簧隔振器的动力特性研究
2.
Optimization of Load Distribution of Vibration Isolation System of Air-spring;
空气弹簧隔振系统载荷分配优化研究
3.
This paper described the applications of air-spring onthe maglev train, compared the advantages and disadvantages ofvarious air-spring suspension structures and proposed a newdesign of trough base, analyzed the impact to vertical andhorizontal characteristics of the air-spring by ANSYS, summedup the advantages and disadvantages of its use and applicationprospects.
简要叙述空气弹簧在磁悬浮列车上的应用,比较各种空气悬挂结构的优缺点,提出了全新的槽式底座设计。
3) airspring
空气弹簧
1.
Using the FE method combining with tests, the deformation and contact characters of an airspring are described precisely, the model for airspring vertical dynamical character analysis is built by the theories of aerodynamics, engineering thermodynamics and heat transfer.
采用有限元与试验结合的方法,准确地描述了空气弹簧变形和接触特性,应用空气动力学、工程热力学和传热学理论建立了空气弹簧垂向动态特性分析模型。
2.
In this paper, digital design method on airspring is studied.
本文综合应用计算机辅助设计(CAD)、有限元分析(FEM)和动力学仿真等数值方法,探讨车辆悬挂系统的关键部件——空气弹簧数字设计的基本方法。
3.
As an important part of suspension system for modern railway vehicles, the use of airsping system is becoming more and more widely For meeting the market demand, the China Academy of Railway Sciences invented the TY 550 type airspring To know static spring rate of TY 550 type airspring better,experimental and finite-element analysis were used to analysis the static spring rate of TY 550 airsprin
空气弹簧作为铁道车辆悬挂系统的重要部件 ,其应用越来越广泛。
5) air spring type
空气弹簧式
6) air valve spring
空气阀弹簧
补充资料:空气弹簧
利用密闭容器中空气的可压缩性制成的弹簧。它的变形与载荷关系特性线为曲线,可根据需要进行设计。空气弹簧能在任何载荷作用下保持自振频率不变,能同时承受径向和轴向载荷,也能传递一定的扭矩,通过调整内部压力可获得不同的承载能力。空气弹簧的结构形式很多,有囊式和膜式等,常用于车辆的悬架和机械设备的防振系统。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条