可转位刀片

  • 网络indexable insert
可转位刀片可转位刀片
  1. 菱形陶瓷可转位刀片三角形可转位铣刀片

    Diamond-shape ceramic indexable insert triangular indexable carbide milling cutter insert

  2. 国产常用可转位刀片断屑槽断屑性能的研究

    Study on Chip Breaking Performance of Chip Breakers of Indexable Insert Most in Use

  3. 硬质合金可转位刀片CAD/CAM

    CAD / CAM for Cemented Carbide Indexable Inserts

  4. 可转位刀片三维断屑槽CAT/CAD/CAM系统

    The CAT / CAD / CAM System of the Indexable Insert 3-D Chip-Breaking Groove

  5. 纳米TiN改性TiC基金属陶瓷可转位刀片研究

    Research on TiC Metal Ceramic Turnable Tool Bit Modified through Adding Nano TiN

  6. Tizit硬质合金目前的生产,估计切削工具和可转位刀片占2/3,其余大部分是耐磨零件、成型工具和特殊零件。

    In the current output of Tizit hardmetals , the production of cutting tools and indexable inserts is about two-thirds , and the remainders are wear parts , forming tools and special components .

  7. 硬质合金可转位刀片在成型工序的精度控制

    The precision control in pressing process of cemented carbide indexable inserts

  8. 可转位刀片断屑槽几何参数对断屑的影响

    Effect on Chip-breaking of the Geometric Parameters of Index-inserts Chip-breaking Groove

  9. 可转位刀片三维断屑槽的研究及设计

    Research and Design of Indexable Inserts 3-Dimensional Chip - Breaking Grooves

  10. 三维槽型可转位刀片的开发研究

    Research and Development of Milling Insert with 3D Complex Groove

  11. 可转位刀片数据库管理系统的设计与实现

    Design and Realization of Management System of Indexable Inserts Database

  12. 硬质合金可转位刀片刀尖圆弧半径对切削过程的影响

    Influence of Cutting Corner Radius on the Metal Cutting Process

  13. 目前,涂层硬质合金可转位刀片使用越来越广泛,不同的使用领域对涂层合金提出不同的要求。

    The coated cemented carbide indexable inserts are used more and more widely .

  14. 硬质合金可转位刀片槽型有限元分析及研究

    FEM Analysis and Study of the Turning Carbide Inserts

  15. 金属陶瓷可转位刀片的有限元分析

    Finite element analysis of ceramal index-able blade

  16. 特种机械夹固可转位刀片铣刀在线机械定尺飞锯可行性探讨

    Special Rotary Milling Cutter with Blades Fixed Mechanically Feasibility Study on In-line Mechanically Fixed - length Flying Saw

  17. 菱形陶瓷可转位刀片

    Diamond-shape ceramic indexable insert

  18. 硬质合金可转位刀片周边仿形磨削原理及仿形凸轮的设计

    The principle of the copying grinding for peripheral shapes of cemented carbide indexable inserts and the master cam design

  19. 碳氮化钛基金属陶瓷可转位刀片的刀具寿命研究

    Study on the cutting tool life of the ti ( c , n ) cermet indexable insert for turning

  20. 对可转位刀片断屑槽设计进行了研究,提出了断屑槽设计的思路及所遵循一般的原则。

    The design of Indexable Inserts chip-breaking groove is studied , and the general principles of chip-breaking groove designing are summarized .

  21. 本文对数控机床可转位刀片断屑槽的断屑机理进行了深入系统的研究。

    ABSTRACT Chip breaking mechanism of chip breakers of indexable inserts of NC machine tool has been studied systematically in this paper .

  22. 小直径铣刀铣削淬硬钢圆弧切削力研究GB/T2077-1987硬质合金可转位刀片圆角半径

    Study on Cutting Force for Milling Hardened Steel Arc Path with Micro-end Mill Indexable hard metal ( carbide ) inserts & Corner radii

  23. 建立了可转位刀片数据库管理系统,可广泛用于刀片信息查询、刀片采购及刀具设计。

    The management system of an indexable inserts database is built , which can be utilized for inserts information query , procurement and design .

  24. 断屑技术是现代机械加工,特别是自动化生产中的一项关键技术,采用硬质合金可转位刀片断屑槽进行断屑是目前应用最广泛的一种断屑方法。

    Chip-breaking is a critical technology in the modern machining , especially in the automatic production . Cemented Carbide Indexable Inserts chip-breaking groove is the most prevalent method to control chips .

  25. 硬质合金可转位车刀片UG型断屑槽断屑机理的研究

    Study on chip breaking mechanism of UG chip breakers of carbide turning insert

  26. 可转位车刀刀片槽几何参数优化算法

    Optimal Algorithm of Geometric Parameters of Insert Pocket of Indexable Turning Cutter

  27. 硬质合金可转位车刀刀片的力学特性分析

    Analysis of Mechanical Characteristics of a Turning Carbide Insert

  28. 高速切削金属陶瓷可转位铣刀刀片力学特性分析

    Analysis of mechanical characteristics of the cermets indexable milling cutter insert during high speed cutting

  29. 硬质合金可转位圆刀片球面模具铣刀的铣削力&铣削中碳钢试验研究

    Milling Force of Ball Nose End Mill ( BNEM ) with Indexable Carbide Rounding Insert & Testing Study of Milling Medium Carbor Steel

  30. 采用二维非线性约束优化方法建立可转位车刀刀片槽几何参数优化计算的数学模型,使用该模型可得到满足设计要求并使车刀前角值为最大的车刀刀片槽加工所需的几何参数。

    With this model , the geometric parameters for machining the insert pocket of the turning tool with maximum rake angle are obtained while the other requirements of the tool design are satisfied .