1)wave-shaped-gear波形齿
1.Based on strengthened construction technology of lateral tensioning and anchoring carbon-fibre reinforced plastic(CFRP) sheet with wave-shaped-gear,theoretic analysis is made for the losses by material relaxation of CFRP sheet and strengthened member,the losses by temperature changing and the losses by action between screw bolt in wave-shaped-teeth grip and strengthened member.根据波形齿横向张拉并锚固碳纤维(以下简称CFRP)片材体系的加固施工工艺,对CFRP片材及被加固构件的材料特性造成的损失(松弛),温度变化引起的损失以及波形齿配套螺杆与被加固构件间的作用引起的损失进行了理论分析。
英文短句/例句
1.Experimental Study on Fastening Bolt Axial Force of WSGG Anchor Basted on CFRP SheetCFRP波形齿锚具紧固螺栓轴力的试验
2.Experimental Analysis of Pre-stress Loss on Tensioning and Anchoring CFRP Sheet with Wave-shaped-gear波形齿体系张拉并锚固CFRP片材的预应力损失
3.Test on Beams Strengthened with Carbon Fiber Sheets and Anchored by Wave-shaped-gear-grip Anchorage波形齿夹具锚锚固碳纤维布加固混凝土梁试验研究
4.Anchorage Systems of High Strength Fiber Reinforced Polymer and the Applications in Strengthened Structure;高强度复合材料FRP片材波形齿夹具锚锚固系统及应用研究
5.Research of the Craft Prestressing CFRP Boads and the Stress Loss of the Prestressed CFRP Boads;波形齿夹具锚给CFRP板施加预应力的施工工艺和应力损失研究
6.Test Research of the Anchorage Performance of the WSGG Anchor for Great Amount of CFRP Sheet波形齿锚具对大吨位CFRP片材的锚固性能试验研究
7.field tilt correctio场频锯齿形波校正信号
8.The Meshing Researches on Asymmetrical Tooth Shape of Oscillating-teeth End-face Harmonic Gear;活齿端面谐波齿轮非对称齿形的啮合研究
9.The Researches on Modification of Tooth Surface of End Face Harmonic Gear Drive of Oscillating Teeth;活齿端面谐波齿轮啮合副齿面修形的研究
10.Analyses of Deformed Wave Shape of Flexible Wheel in Harmonious Double-wave Gear;双波谐波齿轮中柔轮变形波的波形分析
11.Research on Tooth Profile of Harmonic Driver Based on the Kinematic Geometry;基于运动几何学的谐波齿轮传动齿形的研究
12.horizontaldischarge tube水平偏转放电锯齿波形成管
13.The "jagged" shape of NRT response wave was obtained in the delays time from 35 to 40μs.锯齿形(jagged)波形大多出现在延迟为35-40μs之间。
14.Optimal Design of Harmonic Driver Arc Teeth Based on the Kinematics Geometry;基于运动几何学的谐波齿轮传动双圆弧齿形优化设计
15.The Influence of Configuration Parameters on Contact Ratio and Teeth Profile Character of Cam Shock Wave Rolling Movable Teeth Transmission结构参数对凸轮激波滚动活齿传动重合度及齿形特性的影响
16.ANL YZING ENTROPY OF FLEXIBLE WHEEL AND DESIGNING OF MOST OPTIMAL GEOMETRIC SHAPE ABOUT THE FLEXIBLE WHEEL OF SEAL HARMONIC DRIVE GEAR封闭谐波齿轮柔轮能量熵分析和形状优化设计
17.Research on Tooth Profile Interference Based on Meshing Simulation of Harmonic Drive基于谐波传动啮合仿真的齿形干涉研究
18.Analysis of Backlash from Flexspline Torsional Deformation in Harmonic Gearing谐波齿轮传动中柔轮扭转变形产生的回差分析
相关短句/例句
straight gear wave mode直齿波形
3)wave set波形分齿
4)tooth ripple齿形波纹
5)sawtooth waveform锯齿波形
6)zigzag wave锯齿形波
延伸阅读
机床: 直齿锥齿轮刨齿机 用成对刨齿刀按展成法(见齿轮加工)粗﹑精加工直齿锥齿轮或斜齿锥齿轮齿部的齿轮加工机床。直齿锥齿轮刨齿机可加工直径小至5毫米﹑模数为0.5毫米﹐大到直径为900毫米﹑模数为 20毫米的工件。加工精度一般为7级(JB180-60)﹐适用于中小批量生产。直径大于900 毫米的直齿锥齿轮则在按靠模法加工的刨齿机上加工﹐最大加工直径可达5000毫米。直齿锥齿轮刨齿机(见图 直齿锥齿轮刨齿机的组成)的上﹑下刀架作直线往复的切削运动﹐整个刀架装在摇台上﹐并随摇台作一定角度的摆动﹐与工件的相应角度的正反回转运动一起构成展成运动。摇台每上下往复摆动一次﹐就完成一个齿的切削运动。这时工件随床鞍退出﹐转过一定角度进行分齿。然后床鞍又进到工作位置﹐开始切削第二个齿。床鞍的进退由进给鼓轮控制。全部齿切削完毕后机床自动停止。工件主轴箱按工件的根锥角在床鞍上调整位置。一般直齿锥齿轮刨齿机的工件主轴与摇台等高﹐不能调整﹐只能加工直齿。有的刨齿机的工件主轴的高度可调整﹐并带有切向刀架﹐可用以刨削斜齿锥齿轮。能刨削鼓形齿的刨齿机的刀架滑板有两条可调导轨﹐使刀架的运动轨迹略呈曲线﹐以刨出鼓形。
