英国Contour Tools金刚石切削刀具

Aabrasion n. 磨料,研磨材料,磨蚀剂, a. 磨损的,磨蚀的abrasive belt n. 砂带abrasive belt grinding n. 砂带磨削,用研磨带磨光abrasive cut-off machine n. 砂轮切断机abrasive dressing wheel n. 砂轮修整轮abrasive grain n. 磨料粒度abrasive grit n. 研磨用磨料,铁粒abrasive lapping wheel n. 磨料研磨轮accuracy of position n. 位置精度accuracy to shape n. 形状精度active cutting edge n. 主切削刃adapter flange n. 连接器法兰盘adjointing flanks n. 共轭齿廓align n. 找中(心),找正,对中,对准,找平,调直,校直,调整,调准angle milling cutter n. 角铣刀angular grinding n. 斜面磨削,斜磨法angular milling n. 斜面铣削angular plunge grinding n. 斜向切入磨削angular turning n. 斜面车削arbour n. 刀杆,心轴,柄轴,轴,辊轴attachment n. 附件,附件机构,联结,固接,联结法automatic bar machine n. 棒料自动车床automatic boring machine n. 自动镗床automatic copying lathe n. 自动仿形车床automatic double-head milling machine n. 自动双轴铣床automatic lathe n. 自动车床automatic turret lathe n. 自动转塔车床Bbelt grinding machine n. 砂带磨床bench lathe n. 台式车床bevel n. 斜角，斜面，倾斜，斜切，斜角规，万能角尺，圆锥的，倾斜的，斜边，伞齿轮，锥齿轮bevel gear cutting machine n. 锥齿轮切削机床bevel gear tooth system n. 锥齿轮系，锥齿轮传动系统borehole n. 镗孔，镗出的孔，钻眼boring n. 镗孔，钻孔，穿孔boring fixture n. 镗孔夹具boring machine n. 镗床boring tool n. 镗刀boring, drilling and milling machine n. 镗铣床broaching machine n.拉床，铰孔机，剥孔机broaching tool n. 拉刀broad finishing tool n. 宽刃精切刀，宽刃精车刀，宽刃光切刀CCalibrate vt. 校准〔正〕，刻度，分度，检查〔验〕，定标，标定,使标准化，使符合标准cam contour grinder n. 凸轮仿形磨床carbide tip n. 硬质合金刀片carbide turning tool n. 硬质合金车刀carbide-tipped tool n. 硬质合金刀具cast iron machining n. 铸铁加工，铸铁切削加工centerless cylindrical grinder n. 无心外圆磨床ceramic cutting tool n. 金属陶瓷刀具chamfer n.;vt. 倒角，倒棱chamfered cutting edge n. 倒角刀刃champ v. 焦急champing fixture n. 快换夹具champing jaw n. 快换卡爪chaser n. 螺纹梳刀，梳刀盘，板牙chatter vi.;n. 振动，振荡，震颤，刀振cherry n.;a. 樱桃，鲜红的，樱桃木制的chip n. 切屑，铁屑，刀片，刀头，片，薄片，芯片，基片chip breaker groove radius n. 断屑槽底半径，卷屑槽底半径chip clearance n. 切屑间隙chip cross-sectional area n. 切屑横截面面积chip curl n. 螺旋形切屑chip flow n. 切屑流chip formation n. 切屑形成chip removing process n. 去毛刺加工chip variable n. 切屑变量chuck n. 卡盘，夹盘，卡头，〔电磁〕吸盘，vt. 固定，装卡，夹紧，卡住chucker n. 卡盘车床，卡角车床circular drillling machine n. 圆工作台钻床circular path n. 环路，圆轨迹circular pitch measurement n. 周节测量circumference n. 圆周，周线，周界，周围，四周，范围close-grained a. 细颗粒的coeffecient of tool thrust n. 刀具推力系数coil chip n. 卷状切屑cold circular saw n. 冷圆锯cold saw n. 冷锯column drilling machine n. 圆〔方〕柱立式钻床combined drill and milling cutter n. 复合钻铣床complete traverse grinding n. 横进给磨削，切入磨削computer-controlled machine n. 计算机控制机床，数控机床contact pattern n. 靠模continuous chip n. 连续切屑continuous spiral chip n. 连续螺旋切屑contour n. 轮廓，外形，外貌，轮廓线，回路，网路，电路，等高线，等值线，轮廓等高距a. 仿形的，靠模的contour grinding n. 仿形磨削，成形磨削contour milling n. 成形铣削，外形铣削，等高走刀曲面仿形法convex milling attachment n. 凸面铣削附件convex turning attachment n. 中凸车削附件，凸面车削附件coolant lubricant n. 冷却润滑剂coolant lubricant emulsion n. 冷却润滑乳液〔剂〕copy n. 样板，仿形，靠模工作法，拷贝复制品，v. 复制,模仿,抄录copy grinding n. 仿形磨床copy-mill n. 仿形铣copying turret lathe n. 仿形转塔车床corner n. 角,弯〔管〕头,弯管counterbore n. 埋头孔,沉孔,锥口孔,平底扩孔钻,平底锪钻, n.;vt. 扩孔，锪孔，镗孔，镗阶梯孔crankshaft grinding machine n. 曲轴磨床crankshaft turning lathe n. 曲轴车床creep feed grinding n. 缓进给磨削cross milling n. 横向铣削curly chip n. 卷状切屑，螺旋形切屑，切屑螺旋cut v.;n. 切削〔割〕，口，片，断，断开，削减，减少，断面，剖面，相交，凹槽cut off n. 切断〔开，去〕，关闭，停车，停止，断开装置，断流器，挡板，截止，截流cut teeeth n. 铣齿cut-off grinding n. 砂轮截断，砂轮切割cutter n. 刀具，切削工具，截断器，切断器，切断机cutting n. 切削，切片，切割，切屑，金属屑，截槽cutting edge profile n. 切削刃轮廓〔外形，断面〕，切削刃角度cutting force n. 切削力cutting lip n. 切削刃，刀刃，钻唇，钻刃cutting operation n. 切削加工，切削操作，切削作业cutting rate n. 切削效率，切削速率cutting tool n. 刀具，切削工具，刃具cycle n. 周期，周，循环，一个操作过程，轮转，自行车cylindrical grinder n. 外圆磨床Ddamage n.;vt. 损坏〔害，伤，耗，失〕，破坏，事故，故障，伤害，危害deep-hole drilling n.深孔钻削deep-hole milling n. 深孔铣削design n. 设计，计算，计划，方案，设计书，图纸die-sinking n. 凹模dimension n. 尺寸，尺度，维度，量纲，因次direction of the feed motion n. 进给方向，进刀方向discontinuous chip n. 间断切屑distance n. 距离，间隔〔隙〕，长度，vt. 隔开double-column planer-miller n. 双柱龙门铣床dress v. 修饰，修整，平整，整理，清理，装饰，调制，准备，打磨，磨光，压平，轿直，清洗，清理，分级drilling n. 钻头，钻床，穿孔器，凿岩机，v. 钻孔，打孔，钻井，钻探drilling machine n. 钻床，钻机，钻孔机，打眼机drilling tool n. 钻孔〔削，井，眼〕工具Eedge point n. 刀口，刀刃efficiency n. 效率，效能，性能，功率，产量，实力，经济性，有〔功，实〕效end mill n. 立铣刀external grinding n. 外圆磨削Fface n. 表面，外观，工作面，表盘，屏，幕v. 面向，朝向，表面加工，把表面弄平face grinding machine n. 平面磨床face milling machine n. 端面磨床feed force n. 进给力feed motion n. 进给运动fine adjustment n. 精调，细调，微调fine boring n. 精密镗孔finish v.;n. 精加工，抛光，修整，表面粗糙度，完工，最后加工，最后阶段，涂层，涂料finish-cutting n. 精加工，最终切削fixture n. 夹具，夹紧装置，配件，零件，定位器，支架form n. 型式，类型，摸板，模型，形成，产生，成形，表格v. 形〔组，构〕成，产生，作出，成形，造型form-turn n. 成形车削free-cutting n. 自由切削，无支承切削，高速切削Ggap n. 间隔，间隙，距离，范围，区间，缺口，开口火花隙，vt. 使产生裂缝vi. 豁开gear cutting machine n. 齿轮加工机床，切齿机gear generating grinder n. 磨齿机gear hob n. 齿轮滚刀grinding cutter n. 磨具grinding force n. 磨削力grinding machine n. 磨床grinding wheel diameter n. 砂轮直径grinding wheel width n. 砂轮宽度groove n. 槽，切口，排屑槽，空心槽，坡口，vt. 切〔开，铣〕槽groove milling n.铣槽Hheadstock spindle n. 床头箱主轴，主轴箱主轴，头架轴helical tooth system n. 螺旋齿轮传动装置high precision lathe n. 高精度车床high-speed n. 高速high-speed machining n. 高速加工hob n. 齿轮滚刀，滚刀，螺旋铣刀，v. 滚铣，滚齿，滚削horsepower n. 马力hobbing machine n. 滚齿机，螺旋铣床，挤压制模压力机，反应阴模机hole n. 孔，洞，坑，槽，空穴，孔道，管道，v. 钻〔穿，冲，开〕孔，打洞hone n. vt. 磨石，油石，珩磨头，磨孔器，珩磨，honing machine n. 珩磨机，珩床，搪磨床，磨孔机，磨气缸机Iinclination n. 倾斜，斜度，倾角，斜角〔坡〕，弯曲，偏〔差，角〕转increment n. 增量，增加，增〔大〕长indexing table automatic n. 自动分度工作台infeed grinding n. 切入式磨削installation n. 装置，设备，台，站，安装，设置internal grinding n. 内圆磨削involute hob n. 渐开线滚刀Jjig boring machine n. 坐标镗床Kkeyway cutting n. 键槽切削加工knurling tool n. 滚花刀具，压花刀具，滚花刀Llaedscrew machine n. 丝杠加工机床lap grinding n. 研磨lapping n. 研磨，抛光，精研，搭接，擦准lathe n. 车床lathe dog n. 车床轧头，卡箍，鸡心夹头，离心夹头，制动爪，车床挡块lathe tool n. 车刀level n. 水平，水准，水平线，水平仪，水准仪，电平，能级，程度，强度，a. 水平的，相等的，均匀的，平稳的loading time n. 装载料时间，荷重时间，充填时间，充气时间lock n. 锁，栓，闸，闭锁装置，锁型，同步，牵引，v. 闭锁，关闭，卡住，固定，定位，制动刹住longitudinal grinding n. 纵磨low capacity machine n. 小功率机床〔机器〕Mmachine axis n. 机床中心线machine table n. 机床工作台machine tool n. 机床，工作母机machining n. 机械加工，切削加工machining (or cutting) variable n. 加工（或切削）变量machining allowance n. 机械加工余量machining cycle n. 加工循环machining of metals n. 金属切削加工，金属加工magazine automatic n. 自动化仓库，自动化料斗，自动存贮送料装置manufacture n. 制造者，生产者，厂商，产品，制造material removing rate n. 材料去除率metal cutting n. 金属切削metal-cutting technology n. 金属切削工艺学，金属切削工艺〔技术〕metal-cutting tool n. 金属切削刀具，金属切削工具micrometer adjustment n. 微调milling n. 铣削，磨碎，磨整，选矿milling feed n. 铣削进给，铣削走刀量，铣削走刀机构milling machine n. 铣床milling spindle n. 铣床主轴milling tool n. 铣削刀具，铣削工具mount v. 固定，安装，装配，装置，架设，n. 固定件，支架，座，装置，机构mounting n. 安装，装配，固定，机架，框架，装置mounting fixture n. 安装夹具，固定夹具NNose n. 鼻子，端，前端，凸头，刀尖，机头，突出部分，伸出部分number of revolutions n. 转数numerical control n. 数字控制numerically controlled lathe n. 数控车床Ooblique grinding n. 斜切式磨床operate v. 操纵，控制，运行，工作，动作，运算operating cycle n. 工作循环operation n. 运转，操作，控制，工作，作业，运算，计算operational instruction n. 操作说明书，操作说明operational safety n. 操作安全性，使用可靠性oscillating type abrasive cutting machine n. 摆动式砂轮切割机oscillation n. 振动，振荡，摆动，颤振，振幅out-cut milling n. 切口铣削oxide ceramics n. 氧化物陶瓷oxide-ceramic cutting tool n. 陶瓷刀具Pperformance n. 实行，执行，完成，特性，性能，成品，制作品，行为，动作，生产率，效率peripheral grinding n. 圆周磨削peripheral speed n. 圆周速度，周速，边缘速度perpendicular a. 垂直的，正交的，成直角的n. 垂直，正交，竖直，垂线，垂直面physical entity n. 实体，实物pitch n. 齿距，节距，铆间距，螺距，极距，辊距，坡度，高跨比，俯仰角pitch circle n. 节圆plain (or cylindrical) milling machine n. 普通（或圆柱形）铣床plain grinding n. 平面磨削plain turning n. 平面车床plane n. 平面，面，投影，刨，水平，程度，阶段，飞机a.平的v. 弄平，整平，刨，飞行plane milling n. 平面铣削plane-mill n. 平面铣刀，平面铣床plunge mill n. 模向进给滚轧机plunge-cut n. 切入式磨削，横向进给磨削，全面进刀法，全面进给法plunge-cut thread grinder n. 切入式螺纹磨床plunge-grinding n. 切入式磨削point n. 点，尖端，刀尖，针尖，指针，交点，要点，论点，特点v. 指，面向，瞄准，对准，表明，弄尖，强调power n. 功率，效率，能〔容，力〕量，动力，电源，能源v. 驱〔拖，带，发〕动，给...以动力power hacksaw n. 机动弓锯〔钢锯〕precision boring n. 精镗precision boring machine n. 精密镗床precision machining n. 精密机械加工pressure angle n. 压力角primary cutting edge n. 主切削刃principal feed motion n. 主进给运动，主进刀运动production method s n. 生产方法[式]profile n. 轮廓，形面，剖面，侧面图，分布图。

序号名称类型说明1 FACE MILLING AREA表面区域铣可选多种切削方式对一个平面的局部区域进行单层切削2 FACE MILLING表面铣可选多种切削方式对一个平面进行单层切削3 FACE MILLING MANUAL表面铣手动设定可同时选几种切削方式对一个工件的不同切削区域进行单层切削，而且可以手工布置刀轨4 PLANAR MILLING平面铣可选多种切削方式对工件进行多层切削5 PLANAR PROFILE平面轮廓铣只用轮廓切削方式对侧壁进行切削，是单层还是多层切削由切削深度选项决定6 ROUGH FOLLOW跟随工件粗铣优先用跟随工件切削方式对工件多层切削7 ROUGH ZIGZAG往复粗铣优先用往复切削方式对工件多层切削8 ROUGH ZIG单向粗铣优先用单向切削方式对工件多层切削9 CLEANUP CORNERS凹角清理优先用跟随工件切削方式对凹角进行多层切削10 FINISH WALL侧壁精铣优先用轮廓切削方式对侧壁进行多层切削11 FINISH FLOOR底面精加工优先使用跟随工件切削方式，切削深度选择[仅仅底面]选项对底面进行切削12 THREAD MILLING铣螺纹加工大直径螺纹13 PLANAR TEXT平面刻字在工件平面上刻字14 MILLING CONTROL铣控制就是设置机床控制15MILLING USER轧机用户用编好的刀轨进行切削MILL planar 2D加工操作英汉对照MILL contour 3D加工操作英汉对照表序号名称类型说明1 CAVITY MILL型腔铣可选多种切削方式对工件进行多层切削2 ZLEVEL FOLLOW CORE等高跟随型芯优先用[跟随工件] 切削方式进行多层切削，每一切削层的刀轨形状跟随切削层所在高度的型芯岛轮廓3 CORNER ROUGH角粗加工优先用[跟随工件] 切削方式对凹角进行多层切削，每一切削层的刀轨形状跟随切削层所在高度的凹角轮廓4 PLUNGE_MILLING插铣插铣5 ZLEVEL PROFILE等高轮廓只用[轮廓] 切削方式对曲面侧壁进行侧向单层轴向多层切削，每一切削层的刀轨跟随切削层所在高度的轮廓6 ZLEVEL PROFILE STEEP等高轮廓陡峭只用[轮廓] 切削方式对斜面侧壁进行侧向单层轴向多层切削，每一切削层的刀轨跟随切削层所在高度的轮廓7 ZLEVEL CORNER等高角加工只用[轮廓] 切削方式对凹角进行侧向单层轴向多层切削，每一切削层的刀轨是跟随切削层所在高度的凹角轮廓8 FIXED CONTOUR固定轮廓可选多种驱动方式生成刀轨对工件进行单层切削9 CONTOUR AREA轮廓区域优先用[区域铣削] 驱动方式生成刀轨，对工件表面进行单层切削10 CONTOUR AREA NONSTEEP非陡峭区域轮廓优先用[区域铣削] 驱动方式生成刀轨，对工件非陡峭面进行单层切削11 CONTOUR AREA DIRSTEEP陡峭区域轮廓优先用[区域铣削] 驱动方式生成刀轨，对工件陡峭面进行单层切削12 CONTOUR SURFACE AREA曲面区域轮廓优先用[曲面区域] 驱动方式生成刀轨，对网格工件表面进行单层切削13 FLOWCUT SINGLE单刀清角只用[FLOWCUT]驱动方式生成单路清角刀轨14 FLOWCUT MULTIPLE多刀清角只用[FLOWCUT] 驱动方式生成多个偏置清角刀轨15 FLOWCUT REF TOOL参考上一把刀清角只用[FLOWCUT] 驱动方式生成以刀具百分比为偏置的清角刀轨16 FLOWCUT SMOOTH多线跟随切削只用[FLOWCUT]驱动方式生成清角刀轨，非切削刀轨用光滑圆弧过渡1 17 PROFILE 3D3D轮廓只用[轮廓] 切削方式沿工件边缘形成单一刀轨，可用于棱角倒角或凹角清角18 CONTOUR TEXT轮廓刻字在复杂轮廓面上刻字Drill 孔加工操作英汉对照表序号名称类型说明1 SPOT FACING（huo）锪钻属于锪钻，是对已有孔的端面加工2 SPOT DRILLING钻中心标记用点钻给孔中心位置钻中心标记，或用中心钻给轴类零件钻中心孔3 DRILLING钻钻是从实心材料上加工出孔的最普通方法4 PECK DRILLING啄钻属于钻加工，进给方式是每进给一步就退回孔外安全点排屑，然后在已有深度再进给一步5 BREAKCHIP DRILLING断屑钻属于钻加工，进给方式是每进给一步就退回到前一次钻削深度，起断屑和排屑作用6 BORING镗孔镗是对已有孔进行半精加工和精加工。

机床⾏业术语中英⽂对照，⼀⼈⼀份！⼯艺、轴引领机械前沿、机械视频，汽车、加⼯技术、3D打印、⾃动化、机器⼈、⽣产打印、⾃动化、机器⼈、⽣产⼯艺、轴承、模具、机床、钣⾦等⾏业前沿在这⾥等你搞数控加⼯，有时候了解学习国外技术或者产品时，免不了要与英⽂打交道。

往往很多常见的设备或者产品，明明很熟悉，就是拿不准英⽂的正确叫法，今天就为⼤家分享数控加⼯中常见的设备中英⽂对照。

先看⼏个常见的nc milling 数控铣床nc turning 数控车床nc grinding 数控磨床turning center 车削中⼼（1）：按英⽂字母排序3-Jaws indexing spacers 三⽖、分割⼯具头A.T.C.system 加⼯中⼼机⼑库Boring heads 搪孔头Boring machines 镗床Casting,aluminium 铸铝Casting,copper 铸铜Casting,gray iron 铸灰⼝铁Casting,malleable iron 可锻铸铁Casting,steel 铸钢Chamfer machines 倒⾓机Clamping/holding systems 夹具/⽀持系统CNC bending presses 电脑数控弯折机CNC boring machines 电脑数控镗床CNC drilling machines 电脑数控钻床CNC EDM wire-cutting machines 电脑数控电⽕花线切削机CNC electric discharge machines 电脑数控电⽕花机CNC engraving machines 电脑数控雕刻机CNC grinding machines 电脑数控磨床CNC lathes 电脑数控车床CNC machine tool fittings 电脑数控机床配件CNC milling machines 电脑数控铣床CNC shearing machines 电脑数控剪切机CNC toolings CNC⼑杆CNC wire-cutting machines 电脑数控线切削机Coolers 冷却机Cutters ⼑具Diamond cutters 钻⽯⼑具Die casting dies 压铸冲模Die casting machines 压铸机Disposable toolholder bits 舍弃式⼑头Drilling machines 钻床Drilling machines bench 钻床⼯作台Drilling machines,high-speed ⾼速钻床Drilling machines,multi-spindle 多轴钻床Drilling machines,radial 摇臂钻床Drilling machines,vertical ⽴式钻床drills 钻头Electric discharge machines(EDM) 电⽕花机Electric power tools 电动⼑具Engraving machines 雕刻机Engraving machines,laser 激光雕刻机Etching machines 蚀刻机Fixture 夹具Forging,aluminium 锻铝Forging,cold 冷锻Forging,copper 铜锻Forging,other 其他锻造Forging,steel 钢锻Foundry equipment 铸造设备Gear cutting machines 齿轮切削机Gears 齿轮Grinder bench 磨床⼯作台Grinders,thread 螺纹磨床Grinders,tools & cutters ⼯具磨床Grinding machines 磨床Grinding machines,centerless ⽆⼼磨床Grinding machines,cylindrical 外圆磨床Grinding machines,universal 万能磨床Grinding tools 磨削⼯具Grinding wheels 磨轮Hand tools ⼿⼯具Honing machines 搪磨机Hydraulic components 液压元件Hydraulic power tools 液压⼯具Hydraulic power units 液压动⼒元件Hydraulic rotary cylinders 液压回转缸Jigs 钻模Lapping machines,centerless ⽆⼼精研机Lathe bench 车床⼯作台Lathes,automatic ⾃动车床Lathes,heavy-duty 重型车床Lathes,high-speed ⾼速车床Lathes,turret 六⾓车床Lathes,vertical ⽴式车床Lubricants 润滑液Lubrication Systems 润滑系统Machining centers,general 通⽤加⼯中⼼Machining centers,horizontal 卧式加⼯中⼼Machining centers,horizontal & vertical 卧式及⽴式加⼯中⼼Machining centers,vertical ⽴式加⼯中⼼Machining centers,vertical double-column type ⽴式双柱加⼯中⼼Magnetic tools 磁性⼯具Milling heads 铣头Milling machines 铣床Milling machines,bed type 床⾝式铣床Milling machines,duplicating 仿形铣床Milling machines,horizontal 卧式铣床Milling machines,turret vertical 六⾓⽴式铣床Milling machines,universal 万能铣床Milling machines,vertical ⽴式铣床Milling machines,vertical & horizontal ⽴式及卧式铣床Mold repair 模具维修Molds 模具Nail making machines 造钉机Oil coolers 油冷却器Planing machines 刨床Pneumatic power tools ⽓动⼯具Powder metallurgic forming machines 粉末冶⾦成型机Sawing machines 锯床Sawing machines,band 带锯床Saws,band 带锯Saws,hack ⼸锯Saws,horizontal band 卧式带锯Saws,vertical band ⽴式带锯shafts 轴Shapers ⽜头刨床Shearing machines 剪切机Slotting machines 插床spindles 主轴Tapping machines 攻螺丝机Vises 虎钳Vises,tool-maker 精密平⼝钳Wheel dressers 砂轮修整器（2）按中⽂拼⾳字母排序铝轮冒⼝切断机 Overflow cutting machines for aluminium wheels 离⼼压⼒机 Presses,eccentric六⾓⽴式铣床 Milling machines,turret vertical六⾓车床 Lathes,turret螺栓,螺帽及螺丝 Bolts,screws & nuts螺纹磨床 Grinders,thread冷却机 Coolers冷锻 Forging,cold冷锻冲压机 Presses,cold forging⽴式双柱加⼯中⼼ Machining centers,vertical double-column type⽴式铣床 Milling machines,vertical⽴式油压拉床 Vertical hydraulic broaching machine⽴式刨床 Planing machines vertical⽴式车床 Lathes,vertical⽴式带锯 Saws,vertical band⽴式加⼯中⼼ Machining centers,vertical⽴式及卧式铣床 Milling machines,vertical & horizontal⽴式钻床 Drilling machines,vertical联轴器 Coupling连续溶解保温炉 Aluminum continuous melting & holding furnaces 连续冲模 Dies-progressive链传动 Chain drive切断机 Cutting-off machinesCNC⼑杆 CNC toolings曲柄压⼒机 presses,crank修整机 Finishing machines舍弃式⼑头 Disposable toolholder bits润滑系统 Lubrication Systems润滑液 Lubricants熔热处理炉 Heating treatment funaces三⽖、分割⼯具头 3-Jaws indexing spacers伺服冲床 Presses,servo输送链 Conveying chains⼿⼯具 Hand tools砂轮修整器 Wheel dressers蚀刻机 Etching machines外圆磨床 Grinding machines,cylindrical搪磨机 Honing machines搪孔头 Boring heads卧式铣床 Milling machines,horizontal卧式带锯 Saws,horizontal band卧式加⼯中⼼ Machining centers,horizontal卧式及⽴式加⼯中⼼ Machining centers,horizontal & vertical万能铣床 Milling machines,universal万能磨床 Grinding machines,universal镗床 Boring machines弯曲机 Bending machines弯管机 Tube bending machines通⽤加⼯中⼼ Machining centers,general铜锻 Forging,copper铣头 Milling heads铣床 Milling machines⽆⼼磨床 Grinding machines,centerless⽆⼼精研机 Lapping machines,centerless压模 Pressing dies压铸冲模 Die casting dies压铸机 Die casting machines油冷却器 Oil coolers造链机 Chain making tools造线机 Cable making tools造钉机 Nail making machines印刷电器板油压冲孔脱料系统 PCB fine piecing systems摇臂钻床 Drilling machines,radial硬(软)板(⽚)材及⾃由发泡板机组 Hard/soft and free expansion sheet making plant辗压机 Rolling machines液压元件 Hydraulic components液压冲床 Presses,hydraulic液压动⼒元件 Hydraulic power units液压⼯具 Hydraulic power tools液压回转缸 Hydraulic rotary cylindersP型PVC⾼分⼦防⽔ P type PVC waterproof rolled sheet making plant刨床 Planing machines⽜头刨床 Shapers其他铸造 Casting,other其他锻造 Forging,other模芯 Mold core模具 Molds模具维修 Mold repair模具打磨/磨纹 Mold polishing/texturing模具单元 Mold & die components模具加热器/冷却器 Mold heaters/chillers磨轮 Grinding wheels磨削⼯具 Grinding tools磨床 Grinding machines磨床⼯作台 Grinder bench平衡设备 Balancing equipment⽓油压虎钳 Pneumatic hydraulic clamps⽓动冲床 Presses,pneumatic⽓动⼯具 Pneumatic power tools轴 shafts轴承 Bearings轴承配件 Bearing fittings轴承加⼯机 Bearing processing equipment肘杆式压⼒机 Presses,knuckle joint铸铝 Casting,aluminium铸铜 Casting,copper铸造设备 Foundry equipment铸钢 Casting,steel铸灰⼝铁 Casting,gray iron织麦激光切割机 Woven-Cutting machines重⼒铸造机 Gravity casting machines重型车床 Lathes,heavy-duty主轴 spindles扳⼿ Wrenches拔丝机 Drawing machines保温炉 Heat preserving furnaces插床 Slotting machines齿轮 Gears齿轮切削机 Gear cutting machines冲压机 Stamping parts冲⼦研磨器 Punch formers超声波打磨机 Grinders,ultrasonic车床⼯作台 Lathe bench磁性⼯具 Magnetic tools传动链 Transmitted chains床⾝式铣床 Milling machines,bed type带传动 Belt drive带锯 Saws,band带锯床 Sawing machines,band电脑数控镗床 CNC boring machines电脑数控弯折机 CNC bending presses电脑数控铣床 CNC milling machines电脑数控线切削机 CNC wire-cutting machines电脑数控磨床 CNC grinding machines电脑数控车床 CNC lathes电脑数控电⽕花线切削机 CNC EDM wire-cutting machines 电脑数控电⽕花机 CNC electric discharge machines电脑数控雕刻机 CNC engraving machines电脑数控机床配件 CNC machine tool fittings电脑数控剪切机 CNC shearing machines电脑数控钻床 CNC drilling machines电动⼑具 Electric power tools电⽕花机 Electric discharge machines(EDM)雕刻机 Engraving machines⼑⽚ Blades⼑具 Cutters倒⾓机 Chamfer machines多轴钻床 Drilling machines,multi-spindle锻铝 Forging,aluminium锻压机 Presses,forging锻模 Forging dies仿形铣床 Milling machines,duplicating粉末冶⾦成型机 Powder metallurgic forming machines反射炉 Reverberatory furnaces钢锻 Forging,steel⾼速车床 Lathes,high-speed⾼速钻床 Drilling machines,high-speed管筒制造机 Pipe & tube making machines滚筒 Rollers⼯具磨床 Grinders,tools & cutters攻螺丝机 Tapping machines⼸锯 Saws,hack虎钳 Vises换模系统 Mold changing systems夹盘 Chucks夹具 Fixture夹具/⽀持系统 Clamping/holding systems剪切机 Shearing machines加⼯中⼼机⼑库 A.T.C.system激光切割 Laser cutting激光雕刻机 Engraving machines,laser激光钢板切割机 Laser cutting for SMT stensil集合管 Manifolds矫直机 Straightening machines⾦属板成型机 Sheet metal forming machines⾦属板加⼯机 Sheet metal working machines锯⽚ Blades,saw锯床 Sawing machines卷边⼯具 Crimping tools晶圆切割机 Dicing saws精密平⼝钳 Vises,tool-maker精研机 Lapping machines可锻铸铁 Casting,malleable iron快速换模系统 Quick mold change systems卡⼝ Bayonet开关及按钮 Switches & buttons钻⽯⼑具 Diamond cutters钻头 drills钻模 Jigs钻床 Drilling machines钻床⼯作台 Drilling machines bench⾃动压⼒机 Presses,transfer⾃动车床 Lathes,automatic注油机 Lubricators转台 Rotary tables你们对这个如何看，在下⾯留⾔⼤家⼀起评机械前沿： jixieqianyan机械前沿｜机械技术｜机械视频｜机械资讯。

目录一、国内刀具厂家 (01)二、世界各国刀具品牌盘点 (01)三、其余著名刀具厂商简要介绍 (02)四、刀具夹具受欢迎品牌排行榜 (03)五、各地区刀具的排名也是价格和品质的体现 (04)六、世界五大刀具派系对中国刀具市场的影响 (05)七、国内数控刀具企业生产经营规模 (09)八、2009国内数控刀具市场分析 (11)九、数控刀具的概述 (20)一、国内刀具厂家1 株洲钻石2 东莞耐斯卡特3 成都森泰英格4 成都千木二、世界各国刀具品牌盘点1.德国；1 瓦尔特（WALTER）；2 贝克（BECK）；3 博泰(botek)；4 维地亚(widia)；5 威玛诺（WEMARO）；6 德国（JBO）；7 凯狮（KELCH）；8 蓝帜(Leitz)；9 玛帕（MAPAL）；10 蒂泰克斯（TITEX）；11 迪哈特(dihart)；2.瑞典：1 山特维克可乐满(SANDVIK)；2 山高（SECO）；3 DIETERLE；3.日本：1 京瓷（KYOCERA）；2 尼肯（NIKKEN）；3 圣和（SHOWA）；4 大昭和（BIG）；5 三菱（MITSUBISHI）；6 弥漫和(YAMAWA)絲攻；7 OSG 絲攻；8 优能 UNION 微型铣刀；9 日立(HITACHI)；10 东芝泰柯珞(TOSHIBA)；11 二不越荔枝(NACHI)；12 住友(SUMITOMO)；13 元刀(ASADA)；14 冈崎（OKAZAKI）；15 鹰牌(EAGLE)；16 (FP)铰刀；17 戴杰(DIJET)铣刀；18 富士（H.T.D)絲攻；19 神户直冈（kobelco）；20 小笠原（OGASAWARA）；4.以色列：依斯卡（ISCAR）；5.美国:1 肯纳(kenna)；2 昂思路(Onsrud)；3 LBK；4 切削王(Mastercut)；5 铣星(MILLSTAR)；6 SGS；7 国洛泰克（NTK）Mast；6.韩国:1 YESTOOL；2 多仁(DINE)；3 HEADONG；4 HANBOO；5 克洛依（KORLOY）；6 特固克（TAEGUTEC）；7.西班牙：LAT；8.意大利：1 FIUDI.；2 DELFER；三、其余著名刀具厂商简要介绍1 英迈工具（INMIND）：专业钨钢铣刀、丝锥、钻头生产厂家，著名刃具品牌。

精密和超精密加工技术复习思考题答案第一章1。

试述精密和超精密加工技术对发展国防和尖端技术的重要意义。

答:超精密加工技术在尖端产品和现代化武器的制造中占有非常重要的地位。

国防方面，例如：对于导弹来说,具有决定意义的是导弹的命中精度，而命中精度是由惯性仪表的精度所决定的.制造惯性仪表,需要有超精密加工技术和相应的设备。

尖端技术方面，大规模集成电路的发展，促进了微细工程的发展，并且密切依赖于微细工程的发展。

因为集成电路的发展要求电路中各种元件微型化，使有限的微小面积上能容纳更多的电子元件，以形成功能复杂和完备的电路。

因此，提高超精密加工水平以减小电路微细图案的最小线条宽度就成了提高集成电路集成度的技术关键。

2。

从机械制造技术发展看，过去和现在达到怎样的精度可被称为精密和超精密加工。

答：通常将加工精度在0。

1-lμm，加工表面粗糙度在Ra 0.02-0。

1μm之间的加工方法称为精密加工。

而将加工精度高于0。

1μm，加工表面粗糙度小于Ra 0.01μm的加工方法称为超精密加工。

3。

精密和超精密加工现在包括哪些领域.答：精密和超精密加工目前包含三个领域：1)超精密切削，如超精密金刚石刀具切削，可加工各种镜面。

它成功地解决了高精度陀螺仪，激光反射镜和某些大型反射镜的加工.2)精密和超精密磨削研磨。

例如解决了大规模集成电路基片的加工和高精度硬磁盘等的加工。

3)精密特种加工。

如电子束，离子束加工.使美国超大规模集成电路线宽达到0。

1μm。

4.试展望精密和超精密加工技术的发展。

答：精密和超精密加工的发展分为两大方面：一是高密度高能量的粒子束加工的研究和开发；另一方面是以三维曲面加工为主的高性能的超精密机械加工技术以及作为配套的三维超精密检测技术和加工环境的控制技术.5.我国的精密和超精密加工技术和发达国家相比情况如何。

答：我国当前某些精密产品尚靠进口，有些精密产品靠老工人于艺,因而废品率极高,例如现在生产的某种高精度惯性仪表，从十几台甚至几十台中才能挑选出一台合格品。

奥地利森拉天时--攀时公司：森拉天时(CERATIZIT)公司由原来卢森堡的森拉美德(CERAMETAL)和奥地利的攀时(PLANSEE TIZIT)强强联手组成。

现公司总部设在卢森堡，在全世界共有１７家制造厂，４０００多名员工。

在硬质合金制造领域技术领先。

德国瓦尔特(WALTER)股份有限公司(上市公司)是世界上最先进的车、铣、钻、镗用硬质合金刀具和数控磨床制造厂之一,在全世界的用户中享有盛誉已达83年之久。

山特维克是一家高科技材料加工公司，在130个国家设有200多家分公司，集团总雇员人数30000人，年营业额为300亿瑞典克郎，90%以上的业务在国外开展。

是世界最大的金属切削刀具、凿岩钻具、硬质合金半成品生产商。

也是世界最大的不锈钢、高合金钢和特种金属生产厂家之一，同时也生产高速钢具、锯和工具以及传动、加工系统……日本京瓷（KYOCERA）公司创立于1959年，最初为一家技术陶瓷生产厂商。

技术陶瓷是指一系列具备独特物理、化学和电子性能的先进材料。

如今，京瓷公司的大多数产品与电信有关，包括无线手机和网络设备、半导体元件、射频和微波产品套装、无源电子元件、水晶振荡器和连接器、使用在光电通讯网络中的光电产品。

成都英格数控刀具模具有限公司是专业生产整体硬质合金刀具、可转位刀具、切削单元、工具系统及高精度模具，集科工贸为一体的高新技术企业。

公司已于2002年3月正式通过ISO9001质量体系认证。

高起点的硬件设施为企业生产高品质数控刀具提供了基本保障：公司目前拥有美国产STAR ATG－6A六轴六联动数控工具磨床、HAAS－VF4、HASS－VF2及国产加工中心、瑞士产AGIE高精度慢走丝线切割机床，精密电火花成型机及生产检测用设备、仪器60台套左右。

产品设计制造均采用CAD／CAM技术。

公司运用先进的ERP、CRM、OA等一系列信息化解决方案，满足了企业内部计划与资源的管理到企业外部销售、营销与客户服务的需求，实现了办公自动化，使企业的生产经营和管理现代化迈上了新台阶。

英文原文CUTTING TOOLSWhen selecting cutting tools for a job, the first thing to consider is what type of operation needs to be performed. Here is a quick description of the basic cutting tools most often used in milling operations.DRILLA drill is used to create a round, cylindrical hole in a workpiece. Drilled holes can be "through holes" or "blind holes". A "blind hole" is not cut entirely through a workpiece. Quite often, an engineering blueprint will specify a drilled hole to be drilled to "full diameter depth." This means that the hole diameter must be a specified depth without regard to the angled tip of the drill. When you measure your tool length offset, you are measuring the length of the drill and its tip. So how deep do you drill the hole so that the full diameter depth is correct? Well, you need to know how long the drill point is.TIP: The length of the drill point is determined by the tool point angle and the drill diameter. You can calculate the length of the drill point by multiplying the drill diameter by a constant; the value of the constant depends on the drill point angle (most standard high-speed steel drills have a tool point angle of 118 degrees).For a drill point angle of:118 degrees135 degrees141 degreesMultiply the drill diameter by:0.30.2070.177Using these constants allows you to calculate the drill point lengthwithin a few thousandths of an inch.CENTER DRILLA center drill is a small drill with a pilot point. It is used to create a small hole with tapered walls. When a hole's location must be held to a close tolerance, use a center drill first and then use a twist drill to finish the hole. The tapered walls of the center-drilled hole will keep the twist drill straight when it begins to drill into the workpiece.TIP: Many machinists use this rule of thumb: If the tolerance of the diameter of a center-drilled hole is not critical, drill as deep as you want this diameter to be. With a standard, 60-degree center drill below 0.375-inch diameter, the hole diameter produced will be close to the depth you drilled. With larger center drills –0.375 inch and above –the depth-to-diameter ratio becomes larger, so you could be off by as much as 0.080 to 0.100 inch.REAMERA reamer is designed to remove a small amount of material from a drilled hole. The reamer can hold very close tolerance on the diameter of a hole, and give a superior surface finish. The hole must be drilled first, leaving 0.005 to 0.015 inch of stock on the walls of the hole for the reamer to remove.TIP: The ideal situation for hole size accuracy and location when reaming is to process the hole with the following steps: the hole is first drilled, then bored, then reamed.TIP: Stock allowance for a reamed hole will depend on the size of the hole. A general rule is:for holes less than 1/2"for holes greater than 1/2"stock of less than 0.0150" on diameterstock of 0.030" on diameterThe type of workpiece material and the method used to create the hole will affect the stock allowance.TIP: A reamer produces the best, most uniform surface finish when it is fed into and out of the hole using the G85 (bore in, bore out) canned cycle. Many people try to save time by using the G81 (drill) canned cycle, which will feed into a hole and rapid out. It is quicker than G85, but will usually leave a helical swirl mark on the cylindrical surface of the hole. Although this swirl mark is only a cosmetic flaw and doesn't affect the size of the hole, the appearance of the hole may be rejected by some customers.TAPA tap is used to create screw threads inside of a drilled hole.NOTE: Great care must be taken when using a milling machine to perform a tapping operation.TIP: If you are using a machine with rigid tapping, feedrate (in inches per minute) = thread pitch x revolutions per minute. Also, you should never tap more than 1.5 x the tap's major diameter. Threaded connections will not increase in strength if the contact length is more than 1.5 times the diameter of the fastener. If you need threads that are deeper, machine tap them first and hand-tap them to finished depth. If you tap deeper than 1.5 x the hole diameter, your chances of breaking the tap increase dramatically. Chip control becomes a problem. When tapping blind holes, always drill as deep as possible to avoid packing chips below the tap. Using a spiral flute tap will bring the chips up, out of the hole. To further reduce tapping headaches, make sure all holes to be tapped are free of chips, and use a tapping fluid specifically designed for the type of material you are cutting.TIP: Tap drill size is the size of the hole required for a specific tap. For 75% effective threads the formula that will determine the correct drill size is:D – 1/N, whereD = major diameter of the tap andN = number of threads per inchA tapped hole with 75% of thread depth has only 5% less strength than 100% thread and takes only 1/3 of the cutting force of a 100% thread.END MILLAn end mill is shaped similar to a drill, but with a flat bottom. It is used primarily to cut with the side of the tool to contour the shape of a workpiece.TIP: Programming an end mill to cut contour or pocket tool paths using cutter compensation (G41 and G42) allows you much more flexibility in adjusting the size of machined features. Using cutter compensation allows you to adjust the amount of stock removal. As an end mill wears, minor offset adjustments allow you to make every part the same size. You may also use a different size end and have the machine cut the same part features as with the end mill originally programmed for that tool path.BULL END MILLA bull end mill is the same as a regular end mill except that there is a radius on the corner where the flutes meet the bottom of the end mill. This radius can be any size up to one-half of the tool's diameter.TIP: Bull end mills are effective for producing a corner radius between a wall and a floor on a given part feature. They also add to the strength of an end mill. When machining hard, tough to cut materials, the sharp corners on a standard end mill tend to chip and wear faster than an end mill with a corner radius. The radius on a bull end mill provides a more gradual shearing entry in to the work piece.BALL END MILLA ball end mill is a bull end mill where the corner radius is exactly 1/2 the tool's diameter. This gives the tool a spherical shape at the tip. It can be used to cut with side of the tool like an end mill.TIP: The primary purpose of a ball end mill is to machine lofted surfaces. The spherical shape of the tool is able to move along any undulating surface and cut anywhere along the cutter's "ball end." As a ball can roll over a surface, a ball end mill can be used to cut any such surface.INSERT END MILLAn insert end mill is the same as a standard end mill but with replaceable carbide inserts.TIP: Insert end mills are designed to remove metal at higher rates than solid carbide. They come in a large range of diameters and are able to cut at a deeper depth of cut. This is fantastic but, when using these cutters, it is a good idea to calculate the horsepower required to make a cut. Piece of cake on your Haas control: There is a button on the front labeled "HELP/CALC." Press this button once to get the Help menu, press it again to get the Calculator functions. Use the PAGE UP/PAGE DOWN keys to scroll between three pages: Trigonometry Help, Circular Interpolation Help, and Milling Help. Each one of these pages has a simple calculator in the upper left hand corner. On the Milling Help page, you can solve three equations:1. SFM = (cutter diameter [in.]) * RPM * 3.14159 / 122. (Chip load [in.]) = (feed [in. per min.]) / RPM / # of flutes3. (Feed [in. per min.]) = RPM / (thread pitch)With all three equations, you may enter all but one of the values and the control will compute and display the remaining value. To calculate the horsepower required for a cut, you must enter values for RPM, feed rate, number of flutes, depth of cut, width of cut, and choose a material from the menu. If you change any of the above values, the calculator will automatically update the required horsepower for the cut you intend.The next thing to consider when choosing cutting tools for a job is what material you are going to cut. The most common materials cut in the metalworking industry can be divided into two categories: non-ferrous and ferrous. Non-ferrous materials include aluminum and aluminum alloys, copper and copper alloys, magnesium alloys, nickel and nickel alloys, titanium and titanium alloys. Common ferrous materials include carbon steel, alloy steel, stainless steel, tool steel, and ferrous cast metals like iron. Non-ferrous metals are softer and easier to cut, with the exception of nickel and titanium. Ferrous metals, on the other hand, are generally harder in composition and tougher to cut.Cutting tool material is one of the biggest decisions you'll have to makewhen choosing a cutting tool. Most all of the cutters described above are available in three basic materials: high-speed steel, solid carbide, and carbide insert style. Almost all of the basic cutting tool materials can be used to cut almost all materials. It really boils down to performance. High-speed steel cutting tools have very high toughness but lack wear resistance. Carbide, on the other hand, has a very high wear resistance but chips and breaks easily. Carbide will always be able to cut materials at higher speeds and feeds, but is more expensive. Carbide insert cutting tools are very useful in high-production situations because the inserts are designed with multiple cutting edges on each insert. When they become worn out, you index the inserts to the next cutting edge, and when all cutting edges are used, you only replace the inserts and not the whole tool.TIP: If you are using a high-speed steel drill, always use a center drill to get the hole started. Then drill the hole. This will ensure that the drilled hole is in the correct location. If you are using a carbide drill, it is not necessary to center drill first because carbide drills are ground with a self-centering tip. Using a carbide drill to drill a hole that is already center drilled will damage the drill. The outer cutting edges will contact the tapered walls before the tip of the drill begins to cut. This will shock the outer cutting edges and cause the drill to chip. Carbide drills must begin to cut at the tip before the outer cutting edges.Each one of these cutting tool materials is available with a variety of different coatings to enhance their performance. The three coatings most widely use today are titanium nitride (TiN), titanium carbonitride (TiCN), and titanium aluminum nitride (TiAlN). TiN coating is easily recognized by its gold color. The advantages of TiN coating are increased surface hardness, increased tool life, better wear resistance and higher lubricity, which decreases friction and reduces edge build-up. TiN coating is mostly recommended for machining low alloy steel and stainless steel. TiCN coating is gray colored compared to TiN, and even harder. Its advantages are increased cutting speed and feeds (40% to 60% higher compared to TiN), higher metal removal rates, and superior wear resistance. TiCN coatings are recommended for machining all material types. TiAlN coating appears gray or black and is primarily used to coat carbide. It can work atvery high temperatures, up to 800 degrees Celsius, which makes it ideal for high-speed machining without coolant. Pressurized air is recommended to remove chips from the cutting zone. It works well on hardened steels, titanium and nickel alloys, as well as abrasive materials like cast iron and high silicon aluminum.When selecting end mill tools, the number of flutes, or cutting edges, is an important factor. The more flutes an end mill has, the smaller, or shallower, the flutes are. The solid center section of an end mill is approximately 52% of the end mill's diameter on a two-flute end mill. The center section of a three-flute end mill is 56% of its diameter, and an end mill with four or more flutes has a center section that is 61% of its diameter. This means that the more flutes an end mill has, the more rigid it will be in the cut. Two-flute end mills are recommended for soft, gummy materials such as aluminum and copper. Four-flute end mills are recommended for harder, tougher steel materials.中文译文切削刀具在选择切削刀具时，首先应考虑需要执行的操作。

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