1) brake pump
刹车泵体
2) brake
刹车
1.
The payoff reel's automatic brake for 2030mm cold mill pickling line failed to function due to the limited equipment condition,poor flattening ability for wide and heavy strips and unqualified automatic tail out action of the payoff reel.
由于开卷机运行过程中,对于剩余带钢长度计算不正确,自动控制效果已不能满足生产要求;由于设备条件所限,对宽厚带材的矫直能力不够;开卷机带钢自动甩尾功能效率降低等原因造成宝钢分公司2030冷轧酸洗机组开卷机自动刹车失控。
2.
The brake system mainly composed of capacitor component is widely used in new high speed drawing frame.
用电容器做为主要元件的刹车装置在新型高速并条机上得到广泛应用。
3.
A series of brake experiments at different brake velocities have been made for carbon carbon composite which was densificated by resin impregnation after pre densificating to initial density by CVD(chemical vapor deposition).
测试了该试样在一系列刹车速度时的摩擦磨损性能 ,并对其摩擦面及磨屑进行了SEM观察 ,对摩擦面进行显微喇曼光谱分析 。
3) Braking
刹车
1.
Analysis of Braking Cushioning of XXJ300/500 Hydraulic Energy-Storing Workover Rig Lowering Pipestring;
XXJ300/500液压蓄能修井机下放管柱刹车时的缓冲分析
2.
The tire s dynamic contact pressure and its distribution during braking were analyzed by the 3-D FEM,where the tire was regarded as a solid one with relevant parameters given by fitting several values on the principle of equivalent deformation.
分析刹车状态下轮胎动态接触压力的大小和分布。
3.
The simulation analysis results under the common speed are compared with those under relatively low pace and under the state of braking.
实际中汽车总是以一定的速度行驶在路面上,首先将汽车荷载简化为移动的均布荷载,借助大型有限元软件ABAQUS,利用三维动力有限元方法,分析了移动荷载下车辆正常行驶状态、慢速行驶及刹车情况时路面结构内部应力响应规律。
4) disk brake
盘式刹车
1.
Single-Chip Microcomputer Controlled Autodriller for Disk Brake in Oil Drilling;
盘式刹车单片机控制自动送钻技术
5) disc brake
盘式刹车
1.
New development on technology of disc brake for drilling rig;
石油钻机盘式刹车技术的新发展
2.
The analysis of the connection between adjusting disc brake and WOB;
盘式刹车调节与钻压关系的分析
3.
Discussion on development and application of disc brake;
盘式刹车开发与应用探讨
6) braking pressure
刹车压力
1.
Friction and wear properties of carbon/carbon(C/C) composites with a smooth laminar(SL) pyrolytic carbon texture and a rough laminar(RL) pyrolytic carbon texture at different braking pressures were investigated with a home-made laboratory scale dynamometer.
采用MM-1000型摩擦磨损试验机对以光滑层、粗糙层为基体炭的2种C/C复合材料在不同刹车压力下的摩擦磨损性能进行了测试。
参考词条
补充资料:汽车刹车钳体快速成形加工(MEM工艺)
1.背景
汽车工业中很多形状复杂的零部件均由精铸直接制得,如何高精度、高效率、低成本地制造这些精铸件的母模是汽车制造业中的一个重要问题。采用传统的木模工手工制作,对于曲面形状复杂的母模,不但效率低、精度低,难以满足生产需要。采用数控加工中心制作,则成本太高。因此,北京殷华激光快速成形及模具技术有限公司与江苏省常州华能精细铸造厂合作,采用快速成形技术中的熔融沉积制造工艺——MEM制造汽车复杂零部件精铸用母模,精铸部分由华能精细铸造厂完成。
2.工艺过程
首先根据汽车刹车钳体精铸母模的二维图纸,采用Pro-E三维实体建模软件,建立其三维实体CAD模型,然后再采用北京殷华激光快速成形及模具技术有限公司开发的Lark’98系统对CAD模型进行数据处理和工艺规划,最后采用MEM工艺制得汽车刹车钳体精铸母模。
3.设备及工艺参数
采用殷华公司生产的YHHP-1007型ABS丝在MEM-250-II上用MEM工艺制作。送丝速度为180mm/min,喷头行走速度35mm/s为,加热温度为275℃,由于该件较复杂,所以采用整体支撑。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。