进给速度对钻削力的影响最为明显。
The effect of the feedrate to drilling force is the most significant.
钻模有形地限制和控制钻削刀具的路径。
Jigs physically limit and control the path of the cutting tool.
钻削是孔的主要加工方式。
钻削就是用钻头钻一个孔。
分析了该钻头的结构和刃磨特点,进行了振动钻削试验。
The structures and tool grinding features were analyzed and vibration drilling experiments were done.
事实上,铣削允许的切削速度和进给比车削或钻削高三到四倍。
In fact, the permissible cutting speeds and feeds for milling are three to four times higher than those for turning or drilling.
两条钻唇形成钻顶角,并根据被钻削材料的性能来选取其大小。
The tool point angle (TPA) is formed by the two lips and is chosen based on the properties of the material to be cut.
试验表明,该钻头是钻削工程陶瓷、宝石等硬脆材料的理想工具。
The result of experiment shows that the special diamond drill is a ideal tool for machining ceramics , gemstones, etc.
激光钻削时,选择合适的激光功率及减少激光照射时间可提高钻削质量。
Choosing appropriate laser power and reducing laser irradiation time in laser drilling can also improve drilling quality.
由分布函数导出的可靠扭矩函数为实现钻削扭矩的在线监测提供了依据。
The reliability torque function derived from distribution function provides basis for achieving on line detection to drilling torque.
本文简要介绍了一种钻削马鞍床身安装孔装置的设计原理、主要结构等。
The special drilling machine whose principle and construction were introduced was used to drill holes.
振动钻削方法具有消减切削颤振的特殊功能,能够取得良好的加工效果。
Vibration drilling possess the special function of reducing chatter vibration, thus achieving a good drilling effects.
论述了振幅与振动钻削机理之间的关系以及对振动钻削钻头寿命的影响。
The relation between amplitude and vibration drilling mechanism and the impact of amplitude upon the life of drill with vibration drilling are described.
根据振动钻削所具有的变速切削特性,提出了振动钻削的变速减振新概念。
According to the property of cutting with fluctuation speed in vibration drilling, a new concept of vibration reduction by cutting with fluctuation speed in vibration drilling is presented.
麻花钻普通钻削中,孔轴线的偏斜和孔径的扩大是影响其加工精度的主要问题。
In general drilling, axes decline and diameter enlarged of the hole are the main problems to affect the precision of machine tooling.
上述分析为装置的性能改善以及微小孔振动钻削工艺实验奠定了一定的理论基础。
Above-mentioned analyses in this paper lay a theoretical basis for improving performance of the device and doing technologic experiments of vibration drilling.
为了提高新型微钻头的钻削性能,提出了一种适合于微钻头的横刃修磨原理及方法。
To raise drilling performance of new micro-drill, a novel method was advanced for reginding of chisel edge.
集中论述了在实际微孔钻削加工过程中主切削刃对微钻头折断和微孔加工精度的影响。
This article focused on drilling in the actual processing of microporous main cutting edge of micro-drill breaks and microporous processing accuracy.
基于振动钻削的基本原理,对轴向振动钻削的运动学特性和钻尖切削状况进行了分析。
Based on the basic principle of vibration drilling, its kinematics characteristics was analyzed and the cutting conditions of twist drill were studied.
介绍了高灵敏度的微小孔钻削测力仪的结构设计及微小孔钻削力测量系统的工作原理。
The structural design of a high sensitive micro hole drilling dynamometer and the working principle of the micro hole drilling force measuring system are introduced.
振动钻削在钻削过程的不同区段,其特征和钻削机理不同,对振动参数的要求也不一样。
The characteristic and drilling mechanism are different at different drilling segment. It also requires different vibration parameters.
为快速选择合适的轴向振动钻削参数,实现深孔的顺利加工与自动化加工奠定了理论基础。
This lays down a theoretical foundation for quick selection of right axial vibration drilling parameters and successful automatic machining of deep holes.
根据复合构件加工中的各种缺陷,分析了采用预压应力钻削对改善表面加工质量的重要性。
After the various visual defects during drilling processes were analyzed, the importance of drilling with compressive pre stress was presented.
叠层材料是一种先进的复合材料,阶跃式变参数振动钻削新工艺最适合于加工新型叠层材料。
The laminated material is an advanced compound material. A new vibratile drilling technology with step type variable parameter is suitable IC process the new laminated material.
叠层材料是一种先进的复合材料,阶跃式变参数振动钻削新工艺最适合于加工新型叠层材料。
The laminated material is an advanced compound material. A new vibratile drilling technology with step type variable parameter is suitable IC process the new laminated material.
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