High temperature EMAT design for scanning or fixed point operation on magnetite coated steel

Abstract

Bulk thickness measurements were performed at elevated temperatures on magnetite coated low carbon steel pipe and aluminium samples, using a permanent magnet electromagnetic acoustic transducer (EMAT). The design presented here exploits the non-contact nature of EMATs to allow continuous operation at elevated temperatures without physical coupling, sample preparation (in the form of oxide scale removal), or active cooling of the EMAT. A non-linear change in signal amplitude was recorded as the magnetite coated sample was heated in a furnace, whereas a steady decrease in amplitude was observed in aluminium. For a magnetite coated pipe sample, after a dwell time of 3h, a SNR of 33.4dB was measured at 450°C, whilst a SNR of 33.0dB was found at 25°C. No significant EMAT performance loss was observed after one month of continuous exposure to 450°C. EMAT-sample lift-off performance was investigated at elevated temperature on magnetite coated steel; a single-shot SNR of 31dB for 3.0mm lift-off was recorded at 450°C, highlighting the suitability of this design for scanning or continuous fixed point inspection at high temperature.