1.
Finite Element Calculation of the Stress of the Teeth-Locked Quick Open-Closure Device in the High Pressure Gas Quenching Vacuum Furnaces
真空高压气淬炉齿啮式快开结构应力有限元计算
2.
Reliability Design of Involute Zero-tooth-difference Internal Gear Mechanism
渐开线零齿差内啮合齿轮机构的可靠性设计
3.
The formula for intermittent involute gears
对不完全渐开线齿轮机构啮合问题的商榷
4.
Structure of the Rodent Community in Mosuowan Reclaim Ationand Dynamics Analysis of the Time;
莫索湾垦区啮齿动物群落结构与时间动态分析
5.
Study on Constructure and Characteristic of Internal-Meshing Few Differences Teeth Gear Hydro-Motor;
内啮合少齿差液压马达的结构与特性分析
6.
external planetary arrangement
外啮双排行星齿轮机构
7.
fully constant mesh all spur gear transmission
全直齿常啮式变速器
8.
fully constant mesh all helical gear transmissio
全斜齿常啮式变速器
9.
The planet transmission of lithe invete gear (briefly, lithe transmission) is a new gcar drive type of many tooth ,airs.
渐开线柔齿少齿差行星传动(简称柔齿传动)是一种多齿对啮合的全新传动型式。
10.
Analysis on Two Structural Styles of Starter Meshing System
起动机啮合系统2种结构形式的分析
11.
RESEARCH ON TOOTH PROFILE CHAIN AND THE EVOLVENT TOOTH PROFILE SPROCKET
齿形链与渐开线齿形链轮啮合的研究
12.
The structure of the beaver's brain gives no indication that the animal is any more intelligent than other rodents.
河狸的大脑结构并未显示出它们比其他啮齿动物更聪明。
13.
Research on the Vicissitude of Rodents Community Structure and Environment in the Oil City of Karamy;
克拉玛依石油城啮齿动物群落结构与环境变迁研究
14.
The result indicates that the two-terminal bracing structure is optimum for bearing load and gear mesh.
计算结果表明:主动齿轮轴两端支撑结构对轴承受力和齿轮啮合最有利。
15.
Structure Design and Research on Fundamental Features about Translational Meshing Motor;
平动式啮合电机的结构设计与基本特性研究
16.
Construction Principle and Static Torque of Translational Meshing Motor Integrated with Compliant Mechanism
柔性平动式啮合电动机结构原理及静态转矩
17.
having gears not engaged or disconnected.
齿轮没有啮合或者分离开。
18.
threw the machine's pinion out of gear.
使机器的小齿轮脱开啮合。