锯条切割速度及进给力图表提供了合适的锯条速度和进给力参数,使锯条能发挥最佳性能。
The blade speed and feed charts provide proper blade speed and feed parameters for optimum performance of the blades.
进给速度对钻削力的影响最为明显。
The effect of the feedrate to drilling force is the most significant.
适当提高锯丝的张紧力,在一定的变化范围内,采用高的锯丝速度和低的进给速度,可以获得好的切片表面质量。
Increasing the wire tension force properly, adopting the higher wire velocity and slower infeed velocity in a range, the high wafer surface quality can be obtained.
随着芯辊进给速度的增大,轧制力和轧制力矩也相应增大,因此对轧环机力能参数的要求也提高;
The results also predict that the roll force and the roll torque increase with the increase of the feed velocity.
通过测量主轴功率获得切向磨削力,讨论了加工参数,如切深、进给率以及砂轮粒度对切向磨削力的影响。
Tangential grinding forces are obtained through monitoring spindle power and the ir variations are studied with process parameters such as depth of cut, feedrate and wheel grit size.
同时对不同的径向和轴向进给速度对径轴双向复合轧制过程中轧制力,直径增长速率及温度分布的影响进行了系统分析,并进行了相应的实验验证。
Influences of different radial and axial feeding speed on the radial and axial rolling force, growth rate of diameter and temperature have been systematically analyzed and proved by trials.
探讨橡胶接触轮硬度、每次进给的磨削深度、磨削力和砂带磨损对工件表面粗糙度的影响。
The hardness of the rubber contact wheel, the grinding depth of the workpiece per feed once.
从单颗金刚石最大切削厚度的角度,分析了磨削深度、进给速度和砂轮线速度对磨削力的影响。
The influence of depth of grinding, feed rate and circular linear speed of the grinding wheel on the grinding forces with respect to the maximum chip thickness of a single active diamond was analyzed.
通过统计学中的响应曲面法建立了螺旋铣削过程中切削力的二阶模型,并分析了主轴转速、每齿进给量、轴向和径向切削深度等因素对切削力的影响。
A quadratic model of predicting helical milling force was researched. The effects of spindle speed, feed per tooth, and axial and radial depth of cut were analyzed.
进给速度对轴向力的影响较大,而钻头几何形状对扭矩的影响较大。
The thrust is greatly affected by the feed speed while the torque is obviously affected by drill geometries.
根据进给系统的要求,对切削力和滚珠丝杠进行了计算,并选配了合适的齿轮和进给电机。
In accordance with the requirements of feeding system, the cutting force and the ball screw is calculated, and equipped with appropriate gear and feed motor.
通过数值仿真分析低速进给下静动摩擦力差值和传动刚度变化对工作台输出的影响,得出工作台产生爬行运动的可能性条件。
And the influences of the variance of the static and kinematic friction and the transmission stiffness on the outputs of the worktable were analyzed with numerical simulations.
通过数值仿真分析低速进给下静动摩擦力差值和传动刚度变化对工作台输出的影响,得出工作台产生爬行运动的可能性条件。
And the influences of the variance of the static and kinematic friction and the transmission stiffness on the outputs of the worktable were analyzed with numerical simulations.
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