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Viscosity-controllable abrasive particle flow polishing method and device

A polishing device and abrasive flow technology, applied in the field of ultra-precision polishing, can solve problems such as difficulty in adapting to polishing accuracy and difficult and efficient ultra-precision polishing of rotary parts, so as to improve polishing accuracy and efficiency, reduce processing damage layer, and reduce processing cost effect

Active Publication Date: 2021-04-16
ZHEJIANG NORMAL UNIVERSITY
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  • Abstract
  • Description
  • Claims
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AI Technical Summary

Problems solved by technology

Due to the different forces between abrasive grains and parts in different processing stages, it is difficult to adapt to the requirements of different polishing precision for the fixed-viscosity polishing medium obtained from a single formula.
[0005] In summary, the existing fluid polishing technology is difficult to achieve high-efficiency ultra-precision polishing of rotating parts at low cost

Method used

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  • Viscosity-controllable abrasive particle flow polishing method and device
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  • Viscosity-controllable abrasive particle flow polishing method and device

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Embodiment Construction

[0020] The solution of the present invention will be further described below in conjunction with the accompanying drawings.

[0021] refer to figure 1 , figure 2 and image 3 , a viscosity-controllable abrasive flow polishing method, mixing solid paraffin and liquid paraffin, heating and melting, adding polishing abrasive grains 2 and additives into the melted paraffin wax mixture liquid 1, stirring thoroughly and uniformly cooling to form abrasive grains 2 The paraffin wax for polishing is solid, and the softening temperature of the paraffin wax for polishing after modification is 30-50°C. Wherein, the mass percentage of solid paraffin is 50-90%, and the mass percentage of liquid paraffin is 0-20%. Before polishing, first use a temperature regulator to heat the solid paraffin wax for polishing to the softening point to form a polishing slime 3; The viscosity of the polishing slime 3 can further change the holding force of the abrasive grains 2 in the polishing slime 3, s...

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Abstract

The invention discloses a viscosity-controllable abrasive flow polishing method and device. The method comprises the steps: adding polishing abrasive particles, a dispersing agent, a thickening agent and other additives into a molten mixed solution of solid paraffin and liquid paraffin, and forming a polishing viscous liquid; wherein the mass percent of the solid paraffin is 50-90%; the mass percent of the liquid paraffin is 0-20%; the mass percent of the polishing abrasive particles is 5-30%; the mass percent of the dispersing agent is 0.5-2%; and the mass percent of the thickening agent is 0.2-2%. Meanwhile, the invention discloses a device for achieving the polishing method; in the polishing process, a temperature regulator is used for heating the paraffin solid for polishing to the softening point to form polishing mucus; a machined part and the polishing mucus are driven to do relative motion, and the viscosity of the polishing mucus is adjusted by controlling the temperature of a polishing groove; the holding force of abrasive particles in the polishing mucus is changed; and efficient and precise polishing of the surface of the machined part is achieved. Efficient ultra-precision polishing of a revolving body part can be achieved by adjusting the viscosity of a polishing medium.

Description

technical field [0001] The invention belongs to the technical field of ultra-precision polishing, and in particular relates to a viscosity-controllable abrasive flow polishing method and a device thereof, in particular to an abrasive flow polishing method and a device of a revolving body part. Background technique [0002] Rotary parts are widely used in the fields of daily necessities, machinery industry, aerospace and military weapons. For example, thermos cups and rice cooker liners in daily life, bearing roller elements and hydraulic switch shaft elements commonly used in the industrial field, and aspheric mirrors used in the aerospace and military fields are all typical rotary parts. Among them, the insulation cup and rice cooker must be polished before electroplating to ensure the quality of the coating; the bearing rollers and balls must be evenly polished to a smooth surface to prolong the service life of the bearing; the aspheric mirror must be polished to an ultra-...

Claims

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Application Information

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IPC IPC(8): B24B1/00B24B29/04
CPCY02P70/10
Inventor 王华东鄂世举贺新升王城武何力钧黄平庞佩
Owner ZHEJIANG NORMAL UNIVERSITY
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