加工细长轴时,工件易产生自激振动。
Then avoid the surge vibration of the major axis manufacture.
加工细长轴时,工件易产生自激振动。
It is easy to produce surge vibration by oneself when manufacture minor axis.
介绍在车床上加工细长轴专用夹具的设计制造过程。
The design and manufacturing process of the special fixture for machining the slimness shaft on the lathe has been described in this article.
并对加工出的超细长轴表面粗糙度进行详细的分析。
In this dissertation we also made detailed analysis of finished ultra slender shaft's surface roughness.
分析了影响细长轴加工精度的因素,介绍了提高细长轴加工精度的方法。
Factors which affects the thin axis processing precision are analyzed and measures to increase the thin axis processing precision is introduced.
在研究的基础上改进了高碳合金钢细长轴的磨削工艺,克服了表面烧伤现象。
The research, has improved grinding technology of high-carbon alloy steel slender axis, and the phenomena of exiguous flaws were overcomed.
细长轴由于其刚性差、线膨胀大,难以获得较高的加工精度和较小的表面粗糙度。
Due to the bad rigidity and the big line inflation of the thin axis, it is hard to achieve the high processing precision and the small surface roughness.
因此,要提高超细长轴车削加工的精度,必须对车床的夹具和刀具做进一步的改进。
Therefore, for improving the accuracy of exceed slender axle on turning, must need to do with the lathe fixture and cutting tool for further improvement.
文章讨论了影响细长轴加工精度的因素,介绍了传统的细长轴加工方法及引起的弊端。
The paper discusses the factors that affect processing precision of slender axle and introduces its traditional processing methods and the shortcomings that it leads to.
针对奥氏体不锈钢细长轴难以加工的特点,提出了对其加工相应的工艺方法及注意事项。
Some corresponding technologies and key points were proposed for the processing difficulties of the thin and long axes of austenitic stainless steel.
介绍了自制弹性宽刃精车刀对细长轴进行加工,以及加工工艺和加工中要注意的若干问题。
This article introduces high resilience and wide ket turning tool with fine lathe tool made by own against processing fine long shaft, also process craft and pay attention to a number of question.
不锈钢微型细长轴由于含碳量低,韧性大,切削性能差等特点,使得常规设备的加工难以进行。
It is very hard to process the mini-slender shaft of the stainless steel using the ordinary machine tool because its lower carbon content, great toughness and bad cutting feature.
本文的主要贡献是在建立跟刀架的力学模型的基础上分析了影响细长轴车削尺寸误差的主要因素。
The primary originality is to develop a mechanical model of the follower rest and to investigate the main influencing factors of the diameter error of slender bars.
文章分析了在切削力、重力和顶尖顶紧力的作用下,超细长轴车削加工中常见的工件缺陷的产生原因。
Have analysed in the role that cuts force, gravity and center very tight force take off, exceed the common workpiece defect in slender axle turning processing produce reason.
为了确保细长轴的加工质量,根据现有条件和生产实际状况,优化了加工工艺,经实践取得了明显效果。
In order to assure the processing quality of the long shaft, according to the actual situation of our factory, we optimized the technological process, and got visible effects.
探讨了利用普通无心外圆磨床加辅助附件的方法解决超细长轴的加工问题,介绍了加工超细长轴研制过程。
Discusses the problem of the machining of precision ultra thin shaft by using external cylindrical center-less grinding machine with bracket. The development progress is introduced.
该设备还包含置于细长轴的至少一部分上的保护套,且可相对于细长轴在远 端位置和近端位置上移动。
The device can also include a protective sheath disposed over at least a portion of the elongate shaft and movable relative to the elongate shaft between a distal position and a proximal position.
在加工细长轴时,由于受到弯曲剪切力而发生腰鼓现象,这样加工出的细长轴精度不高,所组装的产品质量也不高。
When processing a long shaft, because of the shearing force the drum phenomenon, would occur and the precision of the long shaft is not high. The assembled product quality is not high, too.
我公司专业生产精密细长轴(活塞杆)采用精密冷拔、精磨和高精度抛光的先进工艺制造,各项技术指标均符合并超过国家标准。
We adopted the precision cold drawn, honing and polishing to manufacture the precision Slender Shaft (Piston Rod), every technical target is over the national standard.
在滚压加工工艺中,滚压套的压下量大小决定了滚压力的大小并决定了细长轴表面发生弹塑性变形的状况,从而决定了细长轴的加工质量。
In the process of rolling, the movement of rolling sets decide the rolling pressure, the deformation of the spindly shaft and consequently the rolling quality.
心轴短的轴就是心轴,可以是细长的或锥形的。
Spindle a short shaft is a spindle. It may be slender or tapered.
细长传动轴两端花键头进行了冷挤压加工分析与工艺实验。
An analysis on the cold extrusion process and a technological experiment were made for the two spline ends of a slim drive shaft.
多级离心泵泵轴细长,传递功率大,工作时易弯曲引起故障。
The shaft of a multi-stage centrifugal pump is easy to bend because of being thin and long and providing large transmission power.
多级离心泵泵轴细长,传递功率大,工作时易弯曲引起故障。
The shaft of a multi-stage centrifugal pump is easy to bend because of being thin and long and providing large transmission power.
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