Erosion-oxidation of pressure vessel steel P265GH

Authors

  • E Huttunen-Saarivirta
  • V-T Kuokkala
  • M Antonov
  • R Veinthal
  • J Tuiremo
  • K Mäkelä

Keywords:

erosion-oxidation, erosion, oxidation, particle, steel

Abstract

The behaviour of pressure vessel steel P265GH was studied in a centrifugal high-temperature erosion apparatus under impacts by silica (SiO2) particles moving at velocities ranging from
20 to 60 m s-1 and contacting the surface at the angles of 30° and 90°. Besides particle impacts, the steel was simultaneously exposed to air and elevated temperatures of 350 and 450°C. For comparison, the tests were also performed in the absence of erodent particles. After the tests, the material behaviour was evaluated in terms of occurred weight changes and surface characteristics, the latter ones of which were investigated by using, for example, scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDS). In the analysis of the test results, special attention was paid to the composition and microstructure of the used silica particles and how these influence the elemental distribution on the exposed surfaces. The results show that the particle impacts introduce weight losses that follow a ductile angle-dependency, i.e., relatively greater weight losses at the shallow than at the steep impact angle. Although evident oxide scales developed on the surfaces at the test temperatures, they did not provide the steel with protection against particle impacts. Particle debris was detected embedded in the surfaces particularly under impacts at 90°, with softer particle constituents being preferentially deposited. These results are discussed in terms of the erosion-oxidation behaviour of the steel and the consequences of the heterogeneous erodent particle quality.

Section
Peer reviewed articles

Published

2012-03-04

How to Cite

Huttunen-Saarivirta, E., Kuokkala, V.-T., Antonov, M., Veinthal, R., Tuiremo, J., & Mäkelä, K. (2012). Erosion-oxidation of pressure vessel steel P265GH. Tribologia - Finnish Journal of Tribology, 31(3-4), 11–19. Retrieved from https://journal.fi/tribologia/article/view/69337