适合不同切削深度和间断性切割。
For interrupted cutting and varying cutting depths.
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 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.
针对数控铣削加工参数优化问题，通过加工仿真，计算每一走刀步的切削深度和切削宽度并划分区间。
The presented optimization method partitions cutting depth and cutting width was obtained from NC simulation into sections for the NC machining parameter optimization.
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。
During a facing operation, feed is provided by the cross slide, whereas the depth of cut is controlled by the carriage or compound rest.
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。
The workpiece is clamped in position, and cutter is located against the setting block, which provides setting or cutter position and depth of cut.
合适进给的选择取决于许多因素，例如所需表面光洁度、切削深度和所用刀具的几何形状。
The selection of a suitable feed depends upon many factors, such as the required surface finish, the depth of cut, and the geometry of the tool used.
通过砂轮的横向进给能得到任意所需的切削深度。
Any desired depth of cut can be obtained by the cross feed of the grinding wheel.
切削深度d是未加工面与已加工面之间的垂直距离。
Depth of cut, d, is the normal distance between the unmachined surface and the machined surface.
轴向进给通过大拖板或复式刀架手动或自动提供，然而切削深度则由横向滑板控制。
The axial feed is provided by the carriage or the compound rest, either manually or automatically, whereas the depth of cut is controlled by the cross slide.
另一方面，精车则最好采用很小的进给、较小的切削深度（小于0.05英寸或0.4毫米）和较高的切削速度。
On the other hand, very fine feeds, smaller depths of cut (less than 0.05in, or 0.4mm), and high cutting speeds are preferred for finishing cuts.
粗车中，推荐使用较大切削深度（根据工件材料可达0.25英寸或6毫米）和较小进给。
In roughing cuts, it is recommended that large depths of cuts (up to 0.25in. or 6mm, depending upon the workpiece material) and smaller feeds would be 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。
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.
结果表明，硬质合金刀具薄切削铝合金时，切削速度、进给量、切削深度对已加工表面残留应力的影响具有不同的规律。
The result express that there are different laws of influence on the residual stress of machined surface when aluminum alloy be fine-cutted at different cutting speed, feed and cutting depth.
切削力随切削深度、进给量的增大几乎呈线性增大；
Cuttings forces increase almost linearly with depth of cut and feed rate.
通过车铣和车削两种加工方法的对比，重点研究了切削深度对微细轴类零件加工精度的影响问题。
Contrast the two machining method between turn-milling and turning, research the effect on machining precision of micro-shaft parts about cutting depth.
通过对实验结果的分析显示，车铣加工和车削加工微细轴时切削深度的变化对加工精度的影响很小，一般情况下可以忽略。
The experimental results shown that the effects of cutting depth changing on machining accuracy is much little in the turn-milling process and turning process so we can neglect it generally.
以单因素实验法分别考察了刀具材料、冷却条件、切削深度、进给速度等对刀具磨损的影响规律。
In single factor test, the influencing factor of tools wear was discussed, such as tool material, cooling conditions, cutting depth and feed speed.
超声车削的效率受切削速度、切削深度和进给量的限制，因而限制了超声车削的实际应用。
Cutting velocity, cutting depth and feed are three factors which limit the ultrasonic turning efficiency, and so restrict the practical application of ultrasonic turning.
研究了用自旋转车刀加工金属纤维时，切削深度和进给量对纤维力学性能的影响。
In this paper, effects of depth of cut and feedrate on mechanical properties of metallic fiber are investigated by spinning bit.
在此基础上，引入了遗传算法，并利用其全局寻优性成功地解决了在达到控制废石混入率时获得最大采集率的切削深度的控制问题。
On the basis of this, introduces Genetic Algorithm (GA), solves the cut-depth-control problem that pick-up efficiency is the largest when the controlled waste in-ore rate is reached.
对优控主轴转速系统的极限切削深度进行了试验考证。
The limit cutting depth of the machining system with optimal controlling spindle speed is studied by experiments.
通过试验，找出了切削深度、切削速度、每齿进给量等切削用量及切出角影响面铣刀寿命的规律。
Tests are conducted to find the rules how such cutting parameters as cutting depth, cutting speed and feedrate per blade as well as the cutting angle affect on the life of face mill.
研究用自旋转车刀加工金属纤维时，切削深度和进给量对纤维力学性能的影响。
The effects of the machining depth and the amount of feed on the mechanical properties of the metal fiber to be machined with the self propelled rotary turning tool are researched.
抓住深度调节杆（Q）的顶部，向上抽，使定位片（EE）的顶面对正柱形尺（FF）上希望的切削深度。
Grasping the top, knurled section of the depth adjustment rod (Q), slide it up so that the tab (EE) aligns with the desired depth of cut on the pillar scale (FF).
适合变化的切削深度和适合间断性切割。
For varying cutting depths and interrupted cutting.
实证证明，切削深度、切削角度以及链刀的运行速度都对切土阻力有显著影响。
The test showed that cutting depth, cutting angle and the chain blades moving speed have significant impact on the soil cutting resistance.
高的切削速度、小的进给量及小的切削深度对提高该复合材料的表面质量有益。
Higher machining velocity, lower amount of feed and machining thickness are of benefit to improve the surface quality of the composites.
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.
代码的关键设备：一个已知的设备主要用于制造第一个数字时，其切削深度和间距。
Code Key Machine : A device for making a first key when its cut depth numbers and its spacing are known.
在干切状态下，切削深度对刀具寿命影响最大。
Under dry cutting state, tool life is affected mostly by cutting depth.
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切削深度范围的设置
最大：用来指定除了出始切削层和最终切削层外的所有切削层中的最大切削深度。最小：用来指定除了初始切削层和最终切削层外的所有切削层中的最小切削深度。
初始切削层和最终切削层深度的设置初始的：该选项用来指定初始切削层的深度，即第一次切削工件的深度。（该深度不受最大最小切削层深度的影响）。最终 ：该选项用来指定最终切削层的深度，即最后一次切削工件的深度。
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侧面余量的增量用来指定侧面余量的增量值，一次增加指定值未加工出来的零件可以带有一定的拔摸角。
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