1.
Study on the Tool-Scheduling System Based on Multi-Agent Technology;
基于多智能体的刀具调度系统的研究
2.
Research on Technology and Application of Tool Scheduling System Based on Multi-Agent;
基于多智能体的刀具调度技术及应用的研究
3.
Application of an Improved Genetic Algorithm for Tool Scheduling in FMS
一种改进型遗传算法在FMS刀具调度中的应用
4.
Study on Tool Scheduling for Machining Centre in CIMS
计算机集成制造系统中的加工中心刀具调度研究
5.
The Overall Design and Precision Safeguard Studying of the Tool Pre-Setting Instrument;
刀具预调仪总体设计与精度保障研究
6.
Research on Dynamic Scheduling of Part Flow and Tool Flow in FMS;
柔性制造系统工件流和刀具流动态调度的研究
7.
Gliding system can adjust the knives accurately and quickly.
滑动式调刀系统,调整刀具准确、快捷。
8.
Hanging moulds (knives) seat can increase replacing speed.
悬挂式模具(刀)组座,可提高模具,刀具的更换速度。
9.
Research on Job-Shop Scheduling Problem of the Cemented Carbide Tool Workshop Based on Hybrid Genetic Algorithm;
基于混合遗传算法的硬质合金刀具生产车间调度研究
10.
A cutting tool is wear-resistant if it resists abrasion at the cutting edge and along the tool face. Wear resistance improves as cutting tool hardness increases.
如果切削刀具的刃口和刀面耐磨,刀具就不易磨损。切削刀具的硬度越高,耐磨性就越好。
11.
The emphasis here is refinement - very sharp tool, comparatively little metal removed, and a higher degree of accuracy in measurement.
精加工强调的是精度——使用非常锋利的刀具,切除的金属量较少,测量时的精密度要求较高。
12.
Manufacture and research on pulse magnetic treatment for tools base on AVR
基于AVR脉冲调制的刀具磁化机研制
13.
Calculation of the Ideal Surface Roughness Cut by Cutter with Round edge
圆弧刃刀具切削时理论粗糙度的计算
14.
Analysis of Temperature Fields in Coated Cutting Tools Based on BEM;
基于边界元法的涂层刀具温度场分析
15.
Prediction and Measurement of Cutting Temperature for Coated Tools
涂层刀具切削温度及其测试技术研究
16.
Coupled algorithm for the simulation of temperature distribution in cutting tool
车削刀具内温度分布模拟的耦合方法
17.
Analysis and Research of Tool Length Compensation in Machining Center
加工中心中刀具长度补偿分析与研究
18.
Strength in cutting-tool material is not always proportional to hardness.
切削刀具材料的强度并不都是与硬度成正比的。