Sensors (Mar 2019)

Long Slender Piezo-Resistive Silicon Microprobes for Fast Measurements of Roughness and Mechanical Properties inside Micro-Holes with Diameters below 100 µm

  • Uwe Brand,
  • Min Xu,
  • Lutz Doering,
  • Jannick Langfahl-Klabes,
  • Heinrich Behle,
  • Sebastian Bütefisch,
  • Thomas Ahbe,
  • Erwin Peiner,
  • Stefan Völlmeke,
  • Thomas Frank,
  • Bodo Mickan,
  • Ilia Kiselev,
  • Michael Hauptmannl,
  • Michael Drexel

DOI
https://doi.org/10.3390/s19061410
Journal volume & issue
Vol. 19, no. 6
p. 1410

Abstract

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During the past decade, piezo-resistive cantilever type silicon microprobes for high-speed roughness measurements inside high-aspect-ratio microstructures, like injection nozzles or critical gas nozzles have been developed. This article summarizes their metrological properties for fast roughness and shape measurements including noise, damping, tip form, tip wear, and probing forces and presents the first results on the measurement of mechanical surface parameters. Due to the small mass of the cantilever microprobes, roughness measurements at very high traverse speeds up to 15 mm/s are possible. At these high scanning speeds, considerable wear of the integrated silicon tips was observed in the past. In this paper, a new tip-testing artefact with rectangular grooves of different width was used to measure this wear and to measure the tip shape, which is needed for morphological filtering of the measured profiles and, thus, for accurate form measurements. To reduce tip wear, the integrated silicon tips were replaced by low-wear spherical diamond tips of a 2 µm radius. Currently, a compact microprobe device with an integrated feed-unit is being developed for high-speed roughness measurements on manufacturing machines. First measurements on sinusoidal artefacts were carried out successfully. Moreover, the first measurements of the elastic modulus of a polymer surface applying the contact resonance measurement principle are presented, which indicates the high potential of these microprobes for simultaneous high-speed roughness and mechanical parameter measurements.

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