What question did this study set out to answer?

The aim is to investigate a new positioning stage mechanism that utilizes a piezo actuator in a friction-driven system.

March 26, 2026Open Access

Study of a stage drive mechanism using a piezo actuator and microgroove guide

Key Points

The aim is to investigate a new positioning stage mechanism that utilizes a piezo actuator in a friction-driven system.
Fabricated fine V-shaped grooves on a silicon substrate using crystalline anisotropic wet etching.
Constructed a single-axis guide mechanism by meshing two sliders.
Tested the friction drive characteristics by varying the expansion and contraction speed of the piezo actuator.
Demonstrated the ability to transition between single unit movement and independent sliding.
Showed that changing the actuator's speed affects friction drive characteristics.

Abstract

In this study, a slider with numerous fine V-shaped grooves was fabricated on a silicon substrate using crystalline anisotropic wet etching. By meshing two of these sliders together to form a single-axis guide mechanism, the authors construct a single-axis miniature positioning stage that drives the upper slider by friction by moving the lower guide using the expansion and contraction of a piezo actuator. In this stage, the upper and lower sliders transition between a state where they move as a single unit due to friction and a state where they move independently due to sliding, enabling coarse motion. This report describes changes in friction drive characteristics when varying the expansion/contraction speed of the piezoelectric actuator.

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Cite This Study

KOGA et al. (Wed,) studied this question.

synapsesocial.com/papers/69c4cc75fdc3bde448917b97 https://doi.org/https://doi.org/10.1299/jsmemecj.2025.s111-10

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