Helmut Wernick scite author profile

Purpose – The purpose of this paper is to present a fast and contactless measurement method to determine the spatial conductivity distribution within an intrinsically conducting polymer, more precisely a conductive rubber sheet specimen. As a consequence of the manufacturing process and the material composition, the conductivity distribution within the sheet is assumed to be inhomogeneous. Design/methodology/approach – The current density distribution within the conductive rubber sheet due to an excitation current is estimated from the measured magnetic field distribution. Therefore, a GMR sensor is used to spatially sample the magnetic field above the specimen. Based on the estimated current density distribution and alternatively the local power dissipation calculated from a thermal image, the conductivity distribution within the specimen is determined. For comparison a reference measurement with a classical resistivity probe is done. Findings – The measurement results show a good agreement between the developed and the classical method. Moreover, the developed measurement method requires less time and still offers a higher spatial resolution. Originality/value – The presented results demonstrate the potential of the developed measurement method for determining the conductivity distribution within thin and planar specimens. Furthermore, conclusions can be drawn about the material homogeneity of the used test specimen.

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Detection of delamination defects in carbon fiber reinforced polymer components: miniaturized hardware design for the smart material actuation of ultrasound guided waves

Wernick

Dantele

Rittenschober

et al. 2010

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Multiband damping of resonant vibrating piezoelastic structures by using digital adaptive passive shunting

Wernick

Korak

2012

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Helmut Wernick

Phased array design for optimized directivity behavior in guided wave applications

Visualization of spatial conductivity irregularities within conductive rubber sheets

Detection of delamination defects in carbon fiber reinforced polymer components: miniaturized hardware design for the smart material actuation of ultrasound guided waves

Multiband damping of resonant vibrating piezoelastic structures by using digital adaptive passive shunting

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