Author(s)

Riichi Murayama

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The stress on a test specimen during tensile testing is generally measured by a strain gauge. This method has some problems in that it would influence the measurement conditions of the tensile test and can evaluate only the position at which the strain gauge is attached. The acoustoelastic method is proposed as a method replacing the strain gauge method. However, an ultrasonic sensor with a piezoelectric oscillator requires a coupling medium to inject an ultrasonic wave into a solid material. This condition, due to the error factor of the stress measurement, makes it difficult for the ultrasonic sensor to move on the specimen. We then tried to develop a non-contact stress measurement system during tensile testing using an electromagnetic acoustic transducer (EMAT) with an SH₀-plate wave and S₀-Lamb wave. The EMAT can measure the propagation time in which the ultrasonic wave travels between a receiver and a transmitter without a coupling medium during the tensile testing and can move easily. The interval between the transmitter and the receiver is 10mm and can be moved along the parallel direction or the vertical direction of the tensile load. The transit time was measured by a cross-correlation method and converted into the stress on the test specimen using the acoustoelastic method. We confirmed that the stress measurement using an SH₀-plate wave was superior to that with an S₀-Lamb wave.

Nondestructive Inspection, Ultrasonic Sensor, Stress, Acoustoelasticity, SH0-Plate Wave, S0-Lamb Wave, Tensile Test, Electromagnetic Acoustic Transducer

R. Murayama, "Non-Contact Stress Measurement during Tensile Testing Using an Emat for SH₀-Plate Wave and Lamb Wave," Journal of Sensor Technology, Vol. 1 No. 3, 2011, pp. 65-70. doi: 10.4236/jst.2011.13009.