复摆

  • 网络compound pendulum;physical pendulum;physics pendulum;complex pendulum
复摆复摆
  1. 本设计通过对PEF-600×900复摆颚式破碎机进行运动学分析,提出了复摆颚式破碎机的结构参数优化的数学模型,选用复合形法对数学模型进行求解,借助MATLAB优化工具箱求解。

    Based on the kinematics analysis of PEF-600 × 900 compound pendulum jaw crusher , this design proposed the mathematical model of optimized structural parameters of the compound pendulum jaw crusher , solved the mathematical model with the complex method and MATLAB optimization toolbox .

  2. 复摆的振动分析

    Analysing the vibration of compound pendulum

  3. 利用双游标式复摆测定重力加速度g

    The measurement of acceleration of gravity g by using double vernier physical pendulum

  4. 复摆颚式破碎机CAD系统

    CAD system for single toggle jaw crusher

  5. 线性回归法和Matlab在复摆测重力加速度实验中的应用

    Application of linear regression method and Matlab in measuring gravity acceleration of compound pendulum

  6. 利用AutoCAD作图获取复摆颚式破碎机动颚行程值的方法

    The Method of Making Use of AutoCAD to Get Swing Jaw Travel of Compound Pendulum Jaw Crusher

  7. 用SOLIDWORKS对复摆颚式破碎机进行三维模型图设计

    3D Model Design on Compound Swinging Type Jaw Crusher Using of Solidworks

  8. 为此,从提高颚式粉碎机机构效率的角度出发,对复摆颚式粉碎机进行了运动学分析,并通过计算机仿真软件ADAMS对粉碎机的行程特性进行了研究,为粉碎机的计算机辅助设计提供了一定的依据。

    Through the computer software ADAMS , displacement features are analyzed , which provide a certain basis with CAE of jaw crushers .

  9. 介绍了利用Matlab软件通过最小二乘法对物理实验数据进行处理的方法,并应用于复摆实验。

    The methods of data processing of physical experiment through least square method using Matlab software is introduced , and the application in compound pendulum experiment is shown in this paper .

  10. 应用NormalForm理论,首先分析了复摆自治系统在1:1内共振临界点附近的Hopf分岔解及其在参数平面上的分岔转迁集的解析表达式,并与数值解进行了比较;

    By employing the normal form theory , the Hopf bifurcation and the transition boundary of an autonomous double pendulum with 1:1 internal resonance at the critical point is studied . The results are compared with numerical solutions .

  11. PE-250复摆颚式破碎机的优化设计

    Optimum design of the single toggle jaw crusher model PE-250

  12. 并以PE-400复摆颚式破碎机为例,给出了优化后的腔形。

    Taking model PE-400 single toggle crusher for example the paper searches out its optimal cavity profile .

  13. 复摆实验系统误差中摆角的影响

    Pendulous Angle 's Affect to Error in Compound Pendulum Experiment System

  14. 增量式旋转编码器在复摆法冲量测量中的应用

    Application of incremental revolving encoder in impulse measurement with compound pendulum

  15. 复摆腭式破碎机机构预优化方法

    A Method of Pre-optimization of the Mechanism of Compound Swing Jaw Crusher

  16. 集成开关型霍耳传感器在复摆实验中的应用

    Application of Integrated Hall Switch Sensor in the Experiment for Compound Pendulum

  17. 基于复摆模型的多脉冲冲量耦合系数测量方法

    Measuring method of multiple-pulse impulse coupling coefficient based on compound pendulum model

  18. 复摆颚式破碎机的动颚行程计算

    Calculation for Moving Jaw Travel of Complex Sway Jaw Crusher

  19. 复摆颚式破碎机破碎腔形的设计及优化

    Designing and optimizing the breaking chamber profile of jaw crusher

  20. 复摆颚式粉碎机运动特性的模拟分析

    Simulation Analysis for Kinematics Feature of Jaw Crusher with a Compound Pendulum

  21. 复摆内的能流及其物理机制

    Energy flow in a compound pendulum and its physical mechanism

  22. 复摆颚式破碎机摆动行程的合理确定

    Reasonable Determination for Swing Stroke of Compound Pendulum Jaw Crusher

  23. 复摆腭式破碎机破碎能量的分析及优化

    Analysis and Optimization of Crushing Energy of a Compound Swing Jaw Crusher

  24. 复摆颚式破碎机机构参数化双向设计

    Parameterized bi-directional design for single toggle jaw crushing mechanism

  25. 利用复摆验证了刚体的平行轴定理。

    The Parallel axis theorem of rigid body is verified with physical pendulum .

  26. 一类复摆系统的非线性动力学研究

    Research on nonlinear dynamics of a double pendulum system

  27. 改进的复摆法测复杂零件转动惯量及仿真分析

    Measurement of Rotational Inertia of Complex Parts with Improved Compound-pendulum Theory and Simulation

  28. 改进复摆法测量转动惯量的方法和设备研究

    Theory and Equipment to Determine the Moments of Inertia by an Improved Compound-pendulum Method

  29. 复摆颚式破碎机的轴承摆辗力矩计算理论

    Bearing of the Compound Pendulum Jaw Crusher Theory of Calculating Torque during Rotary Forging

  30. 复摆扫描的光纤液位测量传感系统的研究

    Fiber Optic Sensor System Using Compound Pendulum Scanning