From the theoretical model proposed in this work, the surface prole can be deduced from cutting conditions, cutter geometry, cutting tool imperfections and milling machine deviations.
从理论模型中提出的这项工作,表面形貌可从追溯的切削条件,刀具几何形状,切削工具不完善和铣床偏差。
The surface roughness in mill machining relates to quiver of work piece, principal axis's eccentricity, cutter abrasion, cutter distortion and other physical or geometry factors.
铣削加工表面粗糙度的形成与铣刀和工件振动、主轴偏心、刀具磨损、刀具变形等物理和几何因素有关。
The basic structure design of the left and right step face milling cutter with carbide circular inserts is briefly introduced, amplify on the cutter parameter of geometry and structure.
介绍了装有硬质合金圆刀片的左右阶梯端铣刀的基本结构,对其几何参数和结构参数作了进一步分析。
It is very difficult to design and manufacture milling cutter because its intricate geometry configuration.
但由于螺旋立铣刀结构形状极其复杂,给设计和制造带来困难。
The 3d model of machined cutter was founded by geometry parameter.
再据加工刀具几何参数建立其三维模型。
Based on the differential geometry theory, a mathematical model of milling cutter and a generalized 3-dimension nonlinear model of element cutting force are developed in this paper.
基于微分几何理论建立了任意形状铣刀的数学模型,给出适用于任意形状铣刀的三维单元铣削力模型。
Based on the formation lithology characteristics, the PDC bit was optimized from such aspects as the composite block, blade geometry, cutter model, and cutter mechanics balance, etc.
针对山前构造的地层岩性特征,从复合片、刀翼形状、齿型、切削齿力平衡等方面设计和改进了PD C钻头。
On the basis of the differential geometry, the geometrical theory of machining free form surface by cylindrical cutter in 5-axis NC machine tool is investigated.
从微分几何学的角度,探讨了在五坐标数控机床上采用圆柱形刀具线接触加工自由曲面的几何学原理,分析了刀具面与被加工曲面二阶密切的条件。
The great thing about this katana is the new large geometry blade profile. It has a profile that is larger than most blades which allows for the inexperienced cutter to cut successfully.
这把刀的亮点在于新设计的宽大的符合几何学的刀身造型,这样豪壮的设计为了能够确保缺乏练习的使用者能够成功的进行斩切。
However, the machine tools-cutter-workpiece-fixture is a complicated nonlinear dynamic system. It is determined by the system's physical, geometry and milling process's characteristics.
但是,由于系统的物理性质,几何性质和铣削工艺的特殊性决定了机床-刀具-工件-夹具系统是一个复杂的非线性动力学系统。
The effects of cutting area, contact arc length, the geometry of cutting face, back dip angle of PDC cutter and rock performance on force of PDC cutter breaking rock were simulated experimentally.
试验模拟了切削面积、接触弧长、切削面形状、切削齿后倾角和岩石性能对PDC切削齿破岩受力的影响。
The effects of cutting area, contact arc length, the geometry of cutting face, back dip angle of PDC cutter and rock performance on force of PDC cutter breaking rock were simulated experimentally.
试验模拟了切削面积、接触弧长、切削面形状、切削齿后倾角和岩石性能对PDC切削齿破岩受力的影响。
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