高速切削稳定性和设计协同性是高速面铣刀产品开发与应用中亟待解决的关键问题。
The cutting stability and collaborative design of cutter has become one of the key issues in development and application of high speed face milling cutter with indexable inserts.
在此背景下,已有的数控面铣刀批量生产方式无法满足高速面铣刀多品种、小批量的生产要求。
In this situation, batch production mode can't satisfy the request of high speed surface milling cutter, for it has many types and small batch.
高速面铣刀及其参数化设计系统的研制,为进一步开展高速刀具产品化的研究奠定了坚实的基础。
The development of high speed milling cutter and parametric design system provide firm base for the further research of high speed cutter product.
采用ANSYS进行了不同转速下高速面铣刀刀体、刀片、刀具附件等刀具构件、装配的应力、应变、位移有限元分析。
The stress, strain, and displacement of component of the cutters have been simulated under different rotate speeds in ANSYS.
开发设计了组合式、整体式两类高速可转位面铣刀产品。
Two types of indexing milling cutter has been designed by the author.
高速可转位面铣刀是一种高速铣刀,在高速锐削过程中,刀具内部应力场的分布直接影响到刀具的可靠性和铣削性能川。
According to the characteristic of high speed face milling process, the model of stress field of high speed face milling cutter is established on the dependability analysis.
适用对台阶面沟槽的加工,切削效率和刀具耐用度与高速钢铣刀相比能成倍提高。
Suitable for machining shoulders and slots. Its cutting efficiency and wear resistance is doubled and redoubled than that of HSSmilling cutter.
适用对台阶面沟槽的加工,切削效率和刀具耐用度与高速钢铣刀相比能成倍提高。
Suitable for machining shoulders and slots. Its cutting efficiency and wear resistance is doubled and redoubled than that of HSSmilling cutter.
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