论文信息 - Development of the automatic positioning system of microtool edge in micromachining of glass plate for microfluidic chips

Development of the automatic positioning system of microtool edge in micromachining of glass plate for microfluidic chips

Abstract A microfluidic chip is a microscale chemical laboratory, and a glass substrate is used for the material of the chip. Micromachining is an effective process to produce a 3D micropattern on such a glass plate. In the micromachining process, however, the positioning of the contact point of the tool edge on the surface of the glass workpiece is technically difficult. In this study, a new automated positioning system for the microtool edge is developed using the total internal reflection of a laser beam. The developed system is also applied to detect the change in the cutting mode from ductile to brittle.

Tojiro Aoyama | N. Takahata

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