| 1. | In this paper compensation method of wheel sige deviation is discussed in detail
这里还详细讨论了砂轮尺寸误差的补偿方法。 |
| 2. | An intelligent algorithm and its simulation of grindin g dimensional error compensation
一种磨削加工尺寸误差的智能自学习补偿算法及仿真 |
| 3. | Veneer clipping length by digital key - in . tt is not to occur any error in size when change the feeding speed
剪板长度以数值输入,速度改变时不会产生尺寸误差。 |
| 4. | Automatic slow cutting when the cutting plate presses downward and touches the cutting die , ensuring no size error between the top and bottom layers of cutting materials
裁断机板下压接触刀模时自动慢切,使裁断机最上层与最下层没有尺寸误差。 |
| 5. | Automatic slow cutting when the cutting plate presses downward and touches the cutting die , ensuring no size error between the top and bottom layers of cutting materials
裁断板下压接触刀模十自动慢切,使裁断料的最上层与最下层没有尺寸误差。 |
| 6. | During the course of computation , it is a practical way that as far as the reliable analysis of mechanism motion is concerned , formation and resolution of complex analytical equation is not needed
以曲柄滑块机构为例,研究考虑几何尺寸误差和运动副间隙误差对机构运动可靠性的综合影响。 |
| 7. | In order to realize the system can do the measuring job with automation and intellect , ibm - pc used as controlling and managing system and single - chip microcomputer as the core of the measuring system
根据系统智能化、自动化的要求,设计ibm - pc机结合单片机的智能化光电检测系统,并完成了尺寸误差的评定。 |
| 8. | Different vibration characteristics between the two models are discussed . geometry mismatch in a turbine blade root , which arose in manufacturing process or caused by wearing out during service , leads to contact conditions changed in fir - tree attachments
汽轮机叶根制造尺寸误差或运行磨损造成的尺寸改变会导致叶根与轮盘接触状态变化,进而引起叶片固有频率发生漂移,并有可能接近共振频率而导致叶片事故。 |
| 9. | Actual application shows this system can effectively improve projectile dimension measurement precision and give the error distribution . testing result shows the system measurement error less than 10 microns for internal / external diameters and 100 microns for the external length . hence the measurement system can guide the machining processes and helps to control product quality
实际应用表明该系统可以有效地提高弹体尺寸的测量精度并定量评价弹体的尺寸误差,内外径和同轴度的测量精度可达10微米以内,外长的测量精度可达100微米以内,能有效地指导加工的工艺流程和加工的尺寸精度控制。 |
