Ultra-precise curved surface finishing method based on non-Newtonian fluid shear thickening effect
A non-Newtonian fluid and ultra-precision technology, which is applied in the direction of surface polishing machine tools, polishing compositions containing abrasives, grinding/polishing equipment, etc., can solve the problem of high-efficiency and high-quality processing requirements for various curved surfaces, and processing equipment Complicated problems such as high cost and poor processing consistency achieve the effect of wide application range of processing, high-efficiency high-quality polishing, and high processing efficiency
Active Publication Date: 2012-10-10
ZHEJIANG UNIV OF TECH
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[0006] In order to overcome the shortcomings of the prior art, such as complex processing equipment, high cost, low processing efficiency, poor processing consistency, and difficulty in meeting the high-efficiency and high-quality processing requirements of va
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[0026] Below in conjunction with accompanying drawing, scheme of the present invention is further described:
[0027] refer to Figure 1~Figure 3 , an ultra-precision curved surface polishing method based on the shear thickening effect of non-Newtonian fluids. The non-Newtonian fluid is used as the base liquid to prepare the polishing liquid, and the abrasive grains for polishing are dispersed in the non-Newtonian fluid. During the polishing process, due to the relative movement between the workpiece 1 and the polishing liquid 2, the contact part of the polishing liquid 2 and the workpiece 1 is sheared and thickened by shearing, and the dispersed colloidal solid particles 3 in the polishing liquid aggregate into a large number of particle clusters 4 , and wrap the abrasive grains 5 therein. The viscosity of the polishing fluid in the contact area increases sharply, showing solid characteristics instantly, which enhances the holding force on the abrasive grains, and forms a fl...
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The invention discloses an ultra-precise curved surface finishing method based on non-Newtonian fluid shear thickening effect. The method includes: adding abrasive particles or micropowder into non-Newtonian fluid with shear thickening effect to prepare non-Newtonian fluid polishing solution, wherein the non-Newtonian fluid accounts for 50%-90% of the mass of the polishing solution, the abrasive particles or the micropowder account for 10%-50% of the mass of the polishing solution, and the particle size of the abrasive particles or the micropowder ranges from 0.05 micrometer to 50 micrometers. Relative motion is generated between a workpiece and the polishing solution during polishing, shear thickening is generated at a contact portion of the polishing solution and the workpiece under shearing action, viscosity of the polishing solution in the contact area is increased to enhance holding force to the abrasive particles or the micropowder, and removal of workpiece surface materials is achieved under the micro cutting or chemical mechanical action of the adding abrasive particles or micropowder with polishing effect in the polishing solution on the workpiece, so that polishing of the workpiece surface is achieved. The ultra-precise curved surface finishing method based on the non-Newtonian fluid shear thickening effect can achieve efficient and high-quality polishing to various curved surfaces, in particular to complex curved surfaces and has great economic and social benefits.
Description
technical field [0001] The invention belongs to precision and ultra-precision machining technology, and relates to an efficient and high-quality polishing method based on the shear thickening effect of non-Newtonian fluid, in particular to an efficient and ultra-precision polishing method for various complex curved surfaces such as aspherical curved surfaces and special-shaped curved surfaces. Background technique [0002] Complex surfaces have become an important working surface for many parts in aerospace, astronomy, auto parts, molds, and biomedical implants. Aspherical optical parts can correct a variety of aberrations well, improve the ability of instrument identification, and simplify the structure of the instrument; complex curved mirrors can effectively reduce the number of reflections and power loss, and improve accuracy and stability; the engine cylinder with complex curved surfaces improves its work efficiency. At the same time, with the increasingly complex, hig...
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Inventor 吕冰海吴喆邓乾发袁巨龙
Owner ZHEJIANG UNIV OF TECH
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