Title

APLICATION OF ACOUSTIC EMISSION FOR MONITORING EROSIVE WEAR TESTS OF LOW CARBON STEEL BY SOLID PARTICLES

DOI

10.5151/1472-5836-25717

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Abstract

The erosive wear caused by the impact of solid particles against a surface is a tribological phenomenon present in many segments of the industry, such as transportation, aerospace, mining, power generation, among others. The most usual method to set the wear rate is by measuring the mass loss of the material. In order to apply one technique with potential to determine the rate of erosion wear, this study developed a dedicated equipment and conducted preliminary erosion tests monitored by non-destructive testing known as acoustic emission technique (AE). This can be defined as a technique able to detect mechanical waves generated by the release of elastic energy accumulated in the material. Erosion tests were performed in order to evaluate the ability of equipment to collect data from AE and to correlate these data with the wear of the samples. Samples of low carbon steel eroded by the impact of angular aluminum oxide particles suspended in air at three different velocities: 45, 57 and 67 m/s. The impact angle between the particles and the sample was set at 30 degrees and the test temperature at approximately 20°C. The wear rate has changed with the velocity in accordance with the kinetic energy of the particles and the AE parameter RMS showed sensitivity to the variation of particle impact velocity and to the wear of the sample eroded. The rate of AE signals collected over time correlated with the flow of particles striking the sample, and with the parameters of energy, rise time and duration of the signal.

 

Keywords

Acoustic emission; Erosion; Wear rate; Wear mechanisms; RMS

How to refer

Gustavo Borges Tiboni; Carlos Henrique da Silva. APLICATION OF ACOUSTIC EMISSION FOR MONITORING EROSIVE WEAR TESTS OF LOW CARBON STEEL BY SOLID PARTICLES , p. 4002-4014. In: 2nd International Brazilian Conference on Tribology, Foz do Iguaçu - Brasil, 2014.
ISSN: - , DOI 10.5151/1472-5836-25717