Hysteresis and Material Effects of Printed Strain Gauges Embedded in Organic Coatings

  • Herbert Enser (Speaker)

Activity: Talk or presentationContributed talkscience-to-science

Description

This work reports on the hysteresis behavior and an initial baseline drift of printed strain gauges embedded in organic coating layers on sheet steel that we recently introduced. We subsequently investigated the performance over an extended period of time, which revealed interesting and partially unexpected material properties of printed strain gauges made from silver and carbon. Both silver- and carbon-based strain gauges show a hysteresis behavior of the gauge factor and non-negligible nonlinear characteristics. Furthermore, the carbon-based sensors show a strong initial base line drift within the first 50–100 cycles. All three effects, namely hysteresis, nonlinear gauge factor and initial base line drift, are confirmed within their respective standard deviations.
Period11 Dec 2017
Event titleEurosensors 2017
Event typeConference
LocationFranceShow on map

Fields of science

  • 202028 Microelectronics
  • 202027 Mechatronics
  • 202037 Signal processing
  • 202036 Sensor systems
  • 202 Electrical Engineering, Electronics, Information Engineering
  • 202021 Industrial electronics
  • 203017 Micromechanics
  • 202019 High frequency engineering

JKU Focus areas

  • Mechatronics and Information Processing