The fundamental aim of tectonic analysis is to establish the geometry, kinematics, dynamics and rheology of rocks during tectonic events on all scales.
构造解析的基本目的是建立构造事件造成的地质体几何学、运动学、动力学和流变学。
From two aspects of the tire model and kinematical analysis, vehicle kinematics and force analysis, the bus dynamics model is introduced.
从轮胎模型和运动分析、整车运动和受力分析两方面介绍了客车动力学模型。
The synthetical analysis of weft motion in the rapier loom by elastic dynamics and kinematics methods is made in this paper.
用弹性动力学和运动学方法对剑杆织机动态引纬运动进行了综合分析。
At the last of this paper, dynamics and kinematics analysis is given, which is based on the model's coordinates rather than on the ground coordinates.
最后,对天平模型进行了动力学分析,用基于模型体坐标系的分析结果代替原来的基于地面坐标系的模型姿态的数学公式和动力学方程。
Analysis of the lifting mechanism for vehicle tail-lift based on kinematics and dynamics is conducted.
对车用后栏板举升机构进行了运动学和动力学分析。
With the result of kinematics and dynamics analysis, some performances of the machine have been verified and some problems of it have been found.
从运动学和动力学分析的结果来验证炮弹在供输弹机构的驱动下的运动学及动力学性能,并发现了一些问题。
This equation can describe the whole involute transverse tooth profile exactly. It also provides a new theoretical base for the analysis of gear mesh. Kinematics and dynamics.
该方程能准确、真实地描述整个渐开线齿轮端面齿廓,为齿轮啮合、运动学和动力学分析提供了新的理论依据。
Kinematics is the study of motion in mechanism, while the analysis of force and torques in machined is called dynamics.
运动学是研究机构运动,而分析力和力矩的机械称为动力学。
Based on the Cartesian coordinate, methods of kinematics and dynamics analysis for multi-rigid-body system are introduced.
介绍基于笛卡尔坐标的多刚体系统运动学与动力学分析方法。
This model offers a new theory for 3d numerical design, manufacture and the analysis of engagement, kinematics and dynamics of double circular arc gears.
该模型为双圆弧齿轮三维数字化设计、制造,啮合分析、运动学和动力学分析提供了新的理论依据。
This paper presents kinematics and dynamics simulation of this mobile inspection robot, by utilizing 3D modeling software Unigraphics (UG) and Dynamics Analysis Software ADAMS.
本文结合UG的三维实体建模功能和ADAMS的动力学仿真功能,对巡线机器人线上作业的运动学、动力学建模与仿真做了探索性的研究。
This paper presents kinematics and dynamics simulation of this mobile inspection robot, by utilizing 3D modeling software Unigraphics (UG) and Dynamics Analysis Software ADAMS.
本文结合UG的三维实体建模功能和ADAMS的动力学仿真功能,对巡线机器人线上作业的运动学、动力学建模与仿真做了探索性的研究。
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