Proposal of Finishing Method of MLA Mold Applied Sphere Indentation

Yasunori Kobayashi; Ryo Ishida; Haruhisa Sakamoto

doi:10.4028/www.scientific.net/AMR.797.475

Paper Titles

Polishing Characteristics of a Low Frequency Vibration Assisted Polishing Method
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Friction Force Analysis on Diaomond Lapping of Sapphire Wafers
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Study on Impinging Stream Flow Channel in Abrasive Flow Polishing Complex Cavity of Precision Mold
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Proposal of Finishing Method of MLA Mold Applied Sphere Indentation
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Experiment on Glass Microgroove Molding by Using Polycrystalline Nickel Phosphorus Mold
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Experimental Study on a New Combination Processing Technology of Polycrystalline Diamond
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CVD Micron Diamond Powders
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Study on Radial Deformation of CBN Grinding Wheel Considering Centrifugal Force and Grinding Heat
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 797Proposal of Finishing Method of MLA Mold Applied...

Proposal of Finishing Method of MLA Mold Applied Sphere Indentation

Abstract:

In this study, the novel finishing method of the Micro Lens Array mold is proposed. This method combines the cutting by a ball-endmill and the finishing by sphere indentation. In the previous step, U-shape grooves intersected at right angle are machined by a ball-endmill. In the following step, the ball tool indents at the intersection between U-shape grooves, consequently, the aiming lens form and the aiming surface roughness are obtained. From the results of the manufacturing experiments of the MLA mold by this method, the following are made clear : The proposed method is effective to suppress the deformation of neighboring lens forms caused by following indentation. The improvement effect of sphere indentation on the finished surface roughness is remarkable in the early stage of indentation. The transcribing deviations are 12μm or less in comparison between the radius of lens form and the ideal value regardless of radii in grooves previously cut. In case of the indentation of neighboring four (2 × 2) lenses, the deviation reduces down to 3μm.