桥壳

qiáo ké
  • axle housing
桥壳桥壳
  1. 以0.75t货车液压胀形桥壳为例,利用有限元分析软件ANSYS对其许用强度、静强度、疲劳强度(寿命)及其承载能力进行分析,得到液压胀形桥壳强度的变化规律。

    The allowable strength , static strength , fatigue life and load-carrying capability of hydro-bulged rear axle housing in a 0.75 t truck are analyzed using FEA software ANSYS and the variation rule of its strength is obtained .

  2. 优化后的桥壳本体厚度由8mm降至7mm,质量减轻了4.2kg。

    Thickness of the optimized axle housing is reduced from 8 mm to 7 mm and mass is reduced by 4.2 kg .

  3. PLC控制在汽车后桥壳焊接设备中的应用

    Application of PLC Control in Automobile Rear Axle Housing Welding Equipment

  4. 农用运输车驱动桥壳基于ANSYS的强度分析研究

    Structural Analysis of Farm Transporter Rear-Axle Housing Based on ANSYS

  5. 基于UML的桥壳生产系统仿真建模研究

    Study of Axle Housing Production Systems Simulation Based on UML

  6. 基于ANSYS装载机焊接桥壳的有限元分析

    The Finite Element Analysis for Loader Welded Drive Axle Housing Based on ANSYS

  7. 基于HyperMesh的商用车驱动桥壳有限元分析

    Finite Element Analysis of Drive Axle Housing of Commercial Vehicle based on Hyper Mesh

  8. 利用Solidworks软件在计算机上建立某汽车驱动桥壳3D模型。

    The 3D models of the drive axle housing were established with the software Solidworks in the computer .

  9. 采用ANSYS软件对其分别进行了在垂直力、侧向力、驱动力和制动力工况下的静力学仿真分析,分析结果表明,该桥壳的强度和刚度满足要求。

    ANSYS Mechanical is use to analyze the structural strength under the conditions of the vertical force , lateral force , driving force and braking force , respectively .

  10. 50t平板车中桥桥壳和半轴载荷谱的测定及其试验程序载荷谱的编制

    Loading Spectra for the Differential Axle Housing and Wheel Shaft of a 50t Flat Truck

  11. CY-2型地下铲运机驱动桥壳强度分析与结构改进

    Strength Analysis on Drive Axle Case of Model CY-2 Underground Scraper and Its Structure Improvement

  12. 本文叙述了50t平板车中桥桥壳弯曲载荷、半轴扭矩工作载荷谱测定方法及其试验程序载荷谱的编制方法。

    The paper describes a method of measuring the field loading spectra for the differential axle housing and wheel shaft of a 50t flat truck and determining corresponding testing program loading spectra .

  13. 建立了SGA3550型矿用汽车驱动桥壳及A形架的有限元模型,选择极限工况对其进行了结构强度和刚度分析。

    Models of drive axle housing and A-frame of the SGA3550 are established and the structural strength and stiffness under limit conditions are calculated .

  14. 利用动显式有限元软件LS-DYNA,对影响后桥壳液压成形的胀形比、加载路径、摩擦系数、管坯材料性能等因素分别进行了大量的模拟分析。

    Large quantity simulation analyses about some factors , which influence the hydroforming for real axle housing , such as bulge ratio , route of loading force , friction coefficient and tube blank characteristics , are operated separately with the dynamic explicit finite element analysis software LS-DYNA .

  15. 焊接桥壳的加工变形规律及其应对措施

    Deforming Regularity of Joining Bridge Shell in Processing and Improvement Method

  16. 基于整车虚拟仿真的某越野车后桥壳计算分析

    Rear Axle Housing Analysis Based on Simulation of Dynamic Vehicle Model

  17. 后桥壳镗琵琶孔夹具的改进

    The improvements of tongs for boring lute hole of rear-axle housing

  18. 钢液温度对汽车用桥壳裂纹的影响

    Effect of Molten Steel Temperature on the Crack of Axle Casting

  19. 厚规格汽车桥壳用钢的焊接性能

    Welding Properties of Thick Size Rear Axle Housing Steels for Automobile

  20. 汽车后桥壳总成自动化焊接生产线的研制

    Development of Automatic Welding Line for Automobile Rear Axle Housing Assy

  21. 动态载荷下的汽车驱动桥壳有限元分析

    Finite element analysis for drive axle housing based on dynamic load

  22. 驱动桥壳多输入/多输出时域模态分析

    MIMO experimental modal analysis in time domain for driving axle housing

  23. 客车后桥壳铸件工艺数值模拟及优化设计

    Numerical simulation and optimum design of rear axle casing on bus

  24. 基于有限元方法的载货汽车驱动桥壳分析

    Analysis on the Truck Drive Axle Housing with the Finite Element Simulation

  25. 汽车后桥壳工艺分析及解决方案

    Technological Analysis on the Car Rear Axle and Its Solutions

  26. 汽车驱动桥壳的有限元建模与分析

    Finite Element Modeling and Analyzing of Automobile Drive Axle Housing

  27. 大型客车后桥壳半轴的真空电子束焊接

    Vacuum Electron Beam Welding for Rear-Axle Housing Semiaxle of Coach

  28. 基于Pro/MECHANICA的驱动桥壳结构分析

    The Structure Analyses of Drive Axle Housing Based on Pro / MECHANICA

  29. 基于贝叶斯统计的驱动桥壳可靠性设计

    Reliable design of vehicular rear axle on the base of bayes statistics

  30. 轮式工程机械驱动桥壳计算载荷的确定

    Determining Calculated Loads of Drive Axle Shell of Construction Machinery