heavy-duty face mill

基本解释重型面铣刀

网络释义

1)heavy-duty face mill,重型面铣刀2)KCM type face milling cutter,KCM型平面铣刀3)heavy duty face-milling cutter with indexable insert,硬质合金可转位重型面铣刀4)heavy-duty carbide shell face milling cutter,重型硬质合金套式面铣刀5)ball end cutter,球面铣刀6)face milling cutter,面铣刀

用法和例句

The process to grind ball end cutter is the most complex in all the tool grinding processes, especial for the rake faces and flank faces of the cutter.

前刀面与后刀面的刃磨加工是球面铣刀加工工艺中最复杂的加工模型 ,尤其是球面端刃的前后刀面的加工模型 ,是研究的热点问题 。

A manufacturing model for the ball end cutter is presented, and the feasibility of grinding ball end cutters of different sizes using the same mechanism is discussed.

文中给出球面铣刀的制造模型 ,探讨了运用同一机构磨制邻近规格的不同球面铣刀的可行性问题 。

Through a cutting experiment of milling 0Cr13Ni5Mo stainless steel, some cutting performances of two kinds of carbide face milling cutters such as tool life, effectiveness of chip forming and dividing and dynamic effect of process system are analyzed and investigated.

通过铣削 0Cr13Ni5Mo不锈钢的切削试验 ,对两种硬质合金面铣刀的切削寿命、卷屑和分屑效果、对工艺系统的动态影响等切削性能进行了分析研究 ,结果表明两种面铣刀在不同切削条件下具有不同的切削性能 ,分别适用于粗铣和半精铣加

The limitation of cutting calculation for face milling cutter of M.

分析了克郎聂伯尔格解析法对面铣刀切入计算的局限性,提出了一种更为准确的计算方法,不仅能计算前刀面上最先接触的点,而且能更为准确地求出各特征点接触的先后顺序。

With the face milling cutter as example, the mathematic model of milling by a face milling cutter was established and the simulation algorithm of the micro geometrical texture of the milling surface by a face milling cutter was proposed.

以面铣刀为研究对象,通过建立了面铣刀加工数学模型,给出了面铣刀铣削表面微观几何形貌仿真算法,并开发了相应的铣削表面形貌仿真系统。

heavy duty face-milling cutter with indexable insert

硬质合金可转位重型面铣刀

heavy-duty carbide shell face milling cutter

重型硬质合金套式面铣刀

throw-away face cutter

不重磨硬质合金面铣刀

end mill gashing and radius grinder

端铣刀和侧面铣刀磨床

90 indexable face milling cutter

可转位90°面铣刀

helical rake angle

(铣刀的)轴向刀面角

carbide indexable face-milling cutter

硬质合金可转位面铣刀

side and face milling cutter with carbide insert

硬质合金三面刃铣刀

Milling can produce flat or angled surfaces, groves, slots, gear teeth, and other profiles, depending on the shape of the cutters being used.

铣削可根据所用的铣刀形状分别加工平面或斜面、槽口、缝、齿轮齿及其它型面。

Analysis on Temperature Field of Three-Dimensional Complex Groove Insert and Study on Groove Reconstruction Technique;

三维复杂槽型铣刀片温度场分析及槽型重构技术研究

The helicoidal surfaces are produced mostly by form cutting with forming cutters of end mill type, side mill type or disc type.

螺旋面大多数是用球头铣刀、侧铣刀、盘形刀具成形加工出来的。

Research on Cutting Force and Surface Roughness of High-speed Ball-end Milling;

球头铣刀高速铣削力及加工表面粗糙度的研究

Study of Face-Milling Process Cut-in Type and Disrepair Life;

面铣刀铣削切入方式与破损寿命的研究

Modeling Analysis and Simulation of NC Helical Gear Milling with the Double Dick-type Cutter

数控双盘铣刀铣削斜齿轮模型分析及加工仿真

Moving coordinate system for grinding the rake face of end mill using a spherical wheel

构建球面砂轮磨削立铣刀前刀面的游动坐标系

Roughing end mill with flatted parallel shank types and dimensions

削平型直柄粗加工立铣刀型式与尺寸

Study of Machining Characteristics of High Speed Face Milling Cutter and Development of CAM System;

高速面铣刀刀体加工特征研究与CAM系统开发

Machining Technology of High-speed Face Milling Cutter s Body Based on Five-Axis NC Machining Center;

基于五轴加工中心的高速面铣刀刀体加工技术

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