Three-dimensional spiral line grinding method through ultrasonic vibration

An ultrasonic vibration and two-dimensional ultrasonic vibration technology, applied in the field of high-efficiency precision machining, can solve the problems of increased surface roughness and increased grinding wheel wear, and achieve the effect of reducing roughness, increasing grinding depth and improving surface quality

Inactive Publication Date: 2012-06-13
BEIJING INSTITUTE OF TECHNOLOGYGY
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Problems solved by technology

The other is one-dimensional radial ultrasonic vibration grinding, that is, the ultrasonic vibration direction is along the radial direction of the grinding wheel. Its main feature is that it can significantly reduce the grinding force and improve the material removal rate, but it will lead to increased wear of the grinding wheel and surface roughness. slight increase in degree

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  • Three-dimensional spiral line grinding method through ultrasonic vibration
  • Three-dimensional spiral line grinding method through ultrasonic vibration

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Embodiment Construction

[0010] 1. Fix the workpiece 2 on the top surface of the elliptical ultrasonic vibrator 3 with paraffin, then clamp the elliptical ultrasonic vibrator 3 with the clamp 4, and fix it on the worktable 5 above the machine bed 6.

[0011] 2. Adjust the position of the elliptical ultrasonic vibrator 3 to ensure that its elliptical vibration plane is perpendicular to the direction of the grinding speed.

[0012] 3. Turn on the wave function generator to make it output two AC voltage signals with the same frequency and phase difference. After being amplified by the power amplifier, they are applied to the elliptical ultrasonic vibrator, and the stretching and bending vibration modes of the vibrator are simultaneously excited. At this time, the workpiece vibrates ultrasonically in an elliptical shape along with the elliptical ultrasonic vibrator 3 .

[0013] 4. Set the grinding wheel speed V s and the grinding depth a p , table feed speed V w and other processing parameters for grin...

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Abstract

The invention provides a three-dimensional spiral line grinding method through ultrasonic vibration, which is applicable to high-efficiency precision machining of difficult-to-cut materials. Two-dimensional ultrasonic vibration is applied to a workpiece in the axial direction of a grinding wheel and in the radial direction of the grinding wheel on a common grinder by an ultrasonic transducer, so that the workpiece is in ultrasonic elliptic vibration. As the grinding direction is perpendicular to a plane of ultrasonic elliptic vibration, cutting tracks of abrasive particles relative to the workpiece are three-dimensional spiral lines. The tracks of the abrasive particles on the surface of the workpiece interfere with each other by the aid of the ultrasonic vibration in the axial direction of the grinding wheel, so that roughness is reduced. Besides, the maximum cutting depth of the abrasive particles is increased by the aid of the ultrasonic vibration in the radial direction of the grinding wheel, and the abrasive particles function in intermittent cutting, so that grinding force is reduced, and material removing rate is increased. The method can be used for improving machining surface quality, decreasing surface damage and improving production efficiency, thereby being applicable to high-efficiency precision machining of the difficult-to-cut materials.

Description

technical field [0001] The invention relates to an ultrasonic vibration three-dimensional spiral grinding method, which is suitable for high-efficiency and precise machining of difficult-to-machine materials. Background technique [0002] Difficult-to-machine materials such as ceramics, semiconductor substrates, sapphire substrates, hard alloys, and high-speed steels are increasingly used in aviation, electronics, optics, and automotive industries. The traditional grinding process will inevitably produce serious process deterioration layer and surface cracks. During the grinding process, large grinding force and high grinding temperature will be generated, which will aggravate the wear of the grinding wheel and the damage of the machined surface. On the one hand, it is necessary to repair and replace the grinding wheel in time. On the other hand, in order to remove processing defects and improve the surface finish, a long period of follow-up finishing processing is required,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B24B1/04
Inventor 梁志强王西彬吴勇波解丽静焦黎刘志兵李忠新
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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