硬质合金铣刀

  • 网络Solid Carbide End Mills;Endmill
硬质合金铣刀硬质合金铣刀
  1. 结果表明,有TiN涂层的高速钢钻头使用寿命是无涂层钻头的5~7倍,有TiN涂层硬质合金铣刀的使用寿命是无涂层铣刀的3~11倍。

    The results show that the durability of TiN coated high-speed steel drills is 5 to 7 times longer than that of uncoated drills . For hard alloy milling cutters , the durability of coated tools is 3 to 11 times longer than that of the uncoated ones .

  2. 使用K10硬质合金铣刀,在不使用冷却液的条件下,对Al2024/SiCp复合材料进行铣削加工实验,研究切削参数和颗粒尺寸对表面质量、切削力、刀具磨损的影响。

    K10 cutting tools are employed to mill the Al2024 / SiCp composites without cooling fluid in the experiments . The influences of cutting parameters and particle size on surface quality , cutting forces and wear are studied .

  3. 冷硬铸铁轧辊成型硬质合金铣刀的研究

    Research of cemented carbide mill for forming of cold harden cast iron roll

  4. 基于逆向工程的四刃硬质合金铣刀型线的研究

    Study Four Edges of Cemented Carbide Milling of Profile Based on Reverse Engineering

  5. 铣削高锰钢用高性能硬质合金铣刀材料的研制

    Fabrication of High Property Cemented Carbide Materials Used in Milling High Manganese Steel

  6. 高速干式切削试验表明,与普通硬质合金铣刀相比,涂层铣刀的使用寿命提高5倍。

    High-speed and dry cutting test shows that 5 times longer lifespan are achieved for the milling cutter with this coating compared with those without .

  7. 物理逆向法在优化钣金成形毛坯中的应用基于逆向工程的四刃硬质合金铣刀型线的研究

    The application of physical inverse method in optimum blank design for sheet metal forming Study Four Edges of Cemented Carbide Milling of Profile Based on Reverse Engineering

  8. 随着刀片材料及其制造技术的发展,具有复杂槽型的新型硬质合金铣刀片不断出现,三维复杂槽型铣刀刀片的应用日益广泛。

    Along with the development of the insert material and its manufacturing technology , new hard alloy milling inserts with complex grooves come forth continually , and the milling inserts with complex three-dimension ( 3D ) grooves are increasingly applied widely .

  9. 硬质合金立铣刀CAD中的有限元分析

    Finite element analysis in the CAD of carbide end mill

  10. 基于ANSYS的整体硬质合金立铣刀的有限元分析

    Finite Element Analysis of Whole Hard Alloy End Milling Cutter Based on ANSYS Software

  11. 基于SolidWorks整体硬质合金立铣刀螺旋面的三维实体建模

    3D Modeling Screw Surface of Solid Carbide Endmill Based on SolidWorks

  12. 将有限元分析方法引入硬质合金立铣刀CAD中,对刀具的强度、刚度进行分析。

    Let the finite element analysis method be introduced into the CAD of carbide end mill , and carry out an analysis on the strength and rigidity of the cutter .

  13. 基于UG平台二次开发了整体硬质合金立铣刀参数化设计和二维图绘制及生成软件,实现了对整体立铣刀的计算机辅助快速设计。

    The parameterized design software of solid carbide end mill was secondary developed based on UG platform . The software can map or generate two-dimensional engineering drawings , and implement the computer aided rapid design of solid end mills .

  14. 胶辊磨削质量的磨具选择和工艺探讨不重磨硬质合金面铣刀

    The Research of Grinding Process of Spinning Cots throw-away face cutter

  15. 硬质合金立铣刀CAD/CAE/CAM集成系统的实现

    Realization of CAD / CAE / CAM integrated system for carbide end-mill

  16. 关于硬质合金格利森铣刀盘的设计与制造问题

    On the Design and Manufacture of Hard Conpound Metal Gleason Cutter Chunk

  17. 不重磨硬质合金面铣刀光秃的(严重磨损的)轮胎

    Throw-away face cutter bald ( ie badly worn ) tyres

  18. 硬质合金端铣刀的破损与防止措施

    Wear and Preventive Measures of Carbide End Milling Cutter

  19. 镶硬质合金端铣刀的崩刃与龟裂的研究

    Study on the Chipping and Cracking of End mill of Inserting Sintered Carbide

  20. 端铣刀和侧面铣刀磨床不重磨硬质合金面铣刀

    End mill gashing and radius grinder throw-away face cutter

  21. 螺旋齿套式硬质合金平面铣刀

    Carbide shell face milling cutter with spiral teeth

  22. 硬质合金倒角铣刀的优化设计

    Hard alloy angle milling cutter optimized design

  23. 硬质合金端铣刀的破损分析

    Carbide End Milling Cutter Damage Analysis

  24. 数控磨削螺旋刃球头立铣刀前后刀面的研究不重磨硬质合金面铣刀

    The Research on NC Grinding Rake & Flank Faces of Ball-end Cutters with Spiral Shape Major Cutting Edge

  25. 通过硬质合金立铣刀高速加工铝合金的铣削试验,对螺旋状切屑的成形进行了研究。

    By the experiment of high-speed milling aluminium alloy with carbide end milling cutter , the method of helical chip formation was researched .

  26. 采用多因素正交试验法进行铝合金铣削试验,测得了硬质合金立铣刀的铣削力。

    Milling tests for aluminium alloy are carried out with multi-factors orthogonal test method , milling force of the carbide end milling cutter is measured .

  27. 针对铣工生产实习教学和经济型生产,介绍机械夹固式硬质合金端铣刀的设计、制造和使用效果。

    The paper , aiming at teaching practice and economic production , introduces the design , manufacture and application effect on the mechanical clamping end milling cutter .

  28. 由于整体硬质合金立铣刀形状结构复杂,传统的设计方法无法对刀具进行精确的强度、刚度及应力分析。

    Because of complex structure , traditional designing methods can not be used to do intensity analysis , stiffness analysis and stress analysis precisely for solid carbide end mill .

  29. 通过软件系统,能够实现硬质合金立铣刀的实例检索、参数计算、辅助设计、三维建模、二维图生成以及加工仿真等功能。

    Some functions , such as case searching , parameters calculation , aided design , three-dimensional modeling , two-dimensional drawing automatically and machining simulation of the solid carbide end mills can be realized in the system .

  30. 系统运行实例表明,用户通过选择和输入相应的参数,能方便,快速的完成硬质合金面铣刀产品的参数化设计。

    Running instance showed that users through select and enter the appropriate parameters complete the carbide face cutter design parameters of the product easily and quickly , these in line with modern technology and development requirements .