depth of cut
英 [depθ ɒv kʌt]
美 [depθ əv kʌt]
切截深度;切刀屑厚度
双语例句
- The depth of cut is adjusted by the cross feed of the grinding wheel into the workpiece.
切削深度通过改变砂轮对工件的横向进给来进行调整。 - The workpiece is clamped in position, and cutter is located against the setting block, which provides setting or cutter position and depth of cut.
工件被夹持到位,铣刀靠着提供安装或铣刀位置及切削深度的安装台定位。 - Any desired depth of cut can be obtained by the cross feed of the grinding wheel.
通过砂轮的横向进给能得到任意所需的切削深度。 - Depth of cut, d, is the normal distance between the unmachined surface and the machined surface.
切削深度d是未加工面与已加工面之间的垂直距离。 - It can also be seen that the maximum depth of cut is achieved directly as the cutter engages with the workpiece.
还可以看到当刀具进入工件切削时直接达到最大切削深度。 - Only depth of cut and federate have effects on material removal rate ( MRR).
仅当切削深度、进给速度等参数值增加时,材料去除率增加; - During a facing operation, feed is provided by the cross slide, whereas the depth of cut is controlled by the carriage or compound rest.
在端面车削操作中,进给由横向滑板提供,而切削深度则通过大拖板或复式刀架控制。 - The conditions which have an important influence on metal cutting are work material, cutting tool material, cutting tool geometry, cutting speed, feed rate, depth of cut and cutting fluid used.
对金属切削有重要影响的条件有工件材料、刀具材料、刀具几何形状、切削速度、进给率、切削深度和所用的切削液。 - A dynamic model of a milling system with variable radial depth of cut was proposed, which was a periodic equation, including the effect of runout.
建立了变径向切深的铣削系统周期延迟微分模型,模型考虑了刀具偏心的影响,运用半离散估计技术获得了系统的稳定性。 - This particular model predicts the depth of cut achievable with any given set of process parameters.
这个模糊控制模型可以预测在任何给定一组加工参数时,可获得的切割深度。 - 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.
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。 - The interaction of feed per tooth and depth of cut introduces a lower frequency periodic signal;
铣削深度和每齿进给量之间的交互作用在切削力响应信号中表现为低频周期信号; - This study shows that in high speed milling of Martensitic stainless process, the interaction of depth of cut and feed per tooth has significant effect on the cutting force;
研究结果表明,高速切削马氏体不锈钢材料时,切削速度和每齿进给量之间的交互作用对切削力有显著影响; - This paper presents the information of the effect, measured with a tele-strain-meter, of work material, feed, cutting speed, depth of cut, number of teeth and helix angle etc.
本文在高速滚齿机上,利用遥测应变仪,测定了工件材料,进给量,切削深度,切削速度,齿轮齿数及螺旋角等对力矩的影响,并得出径节为8时的力矩公式。 - Four cutting parameter, namely, cutting speed, feed, depth of cut and nose radius are optimized with consideration of the surface roughness. The design and analysis of experiments are conducted to study the performance characteristic.
四种切削参数,既切削速度、进给量、切削深度、刀尖圆弧半径得以最佳化,并用实验设计和分析研究了性能特性。 - AS the depth of cut in diamond super-fine cutting process is very small, the effect of cutting edge quality on machined surface integrity should not be neglected.
在金刚石极薄切削中,切削尺寸很小,这时刀具的刃口质量对已加工表面完整性的影响不容忽视。 - The distribution of chip thickness along the cutting edge is modeled as a function of tool inclination angle, nose radius, depth of cut and feed rate.
沿切削刃切屑厚度的分布,被作为刀具刃倾角、刀尖圆弧半径、切削深度和进给量的函数被建模。 - The characteristics of difficult-to-eut materials in high-speed cutting process are analyzed and a nonlinear mathematics model on the relationship between cutting forces and depth of cut, feed per tooth, cutting velocity is proposed.
在分析其切削力的非线性特征规律基础上,建立了高速切削难加工材料工艺中切削力与背吃刀量、每齿进给量和切削速度之间的非线性数学模型。 - It is concluded that depth of cut and feed per tooth are the main influence factors on primary cutting forces;
研究结果表明:高速铣削时,背吃刀量和每齿进给量是对主切削力有显著影响的效应因素; - The predication model is utilized to analyze the influences of feed, cutting speed and depth of cut on the surface roughness.
利用预测模型分析了进给量、切削速度、背吃刀量对表面粗糙度的影响。 - The results also show the significant factors effecting surface residual stress are in the order of feedrate, depth of cut and cutting speed.
切削参数对加工表面残余应力影响的显著性顺序为进给量、切削深度和切削速度。 - The expressions of the maximal radial engagement angle for circular corner milling with both uniform and non-uniform radial depth of cut are derived by the geometrical relationship between the cutter and the workpiece.
在此基础上,根据圆角铣削中铣刀与工件之间的几何关系,推导出了均匀径向切深与非均匀径向切深两种圆角铣削的最大径向啮合角的计算公式。 - Based on the simulation model of plane topography, the effects of initial entrance angle, spindle rotational eccentricity, machining inclination angle, radial depth of cut, the feed per tooth and tool wear on surface topography were studied in this paper.
基于平面形貌仿真模型,研究了初始切入角、回转偏心、加工倾角、径向切削深度和每齿进给量等几何因素以及刀具磨损对表面形貌的影响。 - Fine grinding stage in order to obtain good surface quality should choose a slightly lower wheel speed, slow speed of working table and the appropriate depth of cut.
精磨阶段为了获得较好的表面质量应选择稍低的砂轮线速度、慢的工作台速度和适当的切深。 - According to the results of orthogonal test method using regression analysis parameters and set up a grinding wheel wear and surface roughness between the math model, results showed that the depth of cut on surface roughness crankshaft grinding wheel wear and wear the greatest impact.
根据正交试验的结果利用回归分析方法建立了磨削参数与表面粗糙度和砂轮磨损量之间的数学模型,结果表明进给量对曲轴表面粗糙度和砂轮磨损磨损量影响最大。 - Surface topography, roughness and grinding force in different grinding conditions-different depth of cut or different feed rate were measured.
试验中分别通过改变切深、工作台速度,测量了这两种材料在不同工况下的表面形貌、粗糙度以及磨削力。 - Based on the optimization of the level of cutting speed, feed rate, and depth of cut for secondary optimization: A tool to optimize the parameters obtained by cutting experiment, the establishment of a cutting force model.
在一级优化的基础上,对切削速度,进给量,及切削深度进行二级优化:以一级优化获得的刀具参数进行切削实验,建立了切削力模型。 - Research on the impact of cutting parameters on cutting force through the orthogonal test, the increase of axial depth of cut, radial depth of cut and feed rate cause the cutting force increase, while the increase of cutting rate causes the cutting force decrease.
通过正交试验,研究了各切削参数对切削力的影响,切削速度(或主轴转速)增加引起切削力减小,轴向切深、径向切深和进给速度的增加均引起切削力的增加。 - Come to the conclusion that feed rate impact on cutting efficiency and cutting force are highly significant, and the depth of cut has a significant effect.
得出进给速度对切削效率和切削力有较大的影响,而切削深度有显著的影响。 - Impact cutting and cutting compared, not only can increase depth of cut, but can also reduce the large number of cutting force.
冲击切削与静压切削相比,不仅可以增大切削深度,而且可以大量降低切削力。