| 1. | High speed milling machining processes of a skd61 hardened steel
61的高速铣削加工研究 |
| 2. | Special ultra fine sub micron grade for high speed milling especially for mould making
特别适合高速铣削的晶粒度为超细的牌号,特别适合模具制造。 |
| 3. | The stability and cutting forces in high speed milling process can be forecasted with the model
利用该模型,可对铣削过程的特征参数如稳定性、切削力等进行预测。 |
| 4. | The nonlinear dynamic model for high speed milling was built according as the cutting theory and numerical method
为此从动力学出发,利用切削理论和数值方法,建立了一个高速铣削的非线性动力学模型。 |
| 5. | The wear patterns and wear mechanisms of solid cemented carbide are analyzed in high - speed milling of aluminum alloy
摘要对硬质合金整体立铣刀高速铣削加工航空铝合金时的刀具磨损形态及其磨损机理进行了观察和分析。 |
| 6. | Forging die is the most suitable for high speed milling application , because of its high hardness i material and lower surface roughness
而各式模具中又以?模最为适合,因其模具材料硬度较高且模穴表面粗度要求较低。 |
| 7. | In order to fit the high speed milling , a new tool path strategy has also been worked out . the new slick tool path eliminates the abruptly change of direction
提出了一种适于高速铣削的加工刀轨生成算法,该算法消除了刀轨方向的突变。 |
| 8. | The use of cryogenic nitrogen gas jet to reduce the temperature of cutting zone and to avoid oxidation wear of tool in high speed milling titanium alloy was presented
为降低切削区温度、防止刀具的氧化磨损,提出在低温氮气射流条件下进行钛合金的高速铣削加工。 |
| 9. | This dissertation is concerned with the applications of variable structure control ( vsc ) of active magnetic bearing ( amb ) to high speed milling spindles and flexible rotor systems
全文工作取得如下创造性成果:首次将变结构控制策略用于磁悬浮机床主轴的主动控制。 |
| 10. | Compared with convention al speed machining , the affect and impact of thermal - dynamical coupling field play an important role in the cutting tool wear in high speed milling of aluminum alloy
与常速铣削磨损机理的不同之处在于高速旋转形成的热、力耦合的应力场对硬质合金刀具的作用与冲击影响占主导地位。 |
