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Tytuł artykułu

Studies of stainless steel exposed to sandblasting

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
Polish Seminar on Positron Annihilation (42 nd ; 29.06-01.07.2016 ; Lublin, Poland)
Języki publikacji
EN
Abstrakty
EN
The influence of sandblasting on surface and subsurface of stainless steel is investigated using variable energy positron beam (VEP), positron annihilation spectroscopy (PAS), scanning electron microscopy (SEM), and atomic force microscopy (AFM). Samples of stainless steel were blasted using 110 μm particles of Al2O3 under different pressure and time duration. In the case of sandblasting for 90 s, the reduction of positron diffusion length depending on the applied pressure was observed. Sandblasting during 30 s leads only to the reduction of positron diffusion length to about 60 nm for all samples. Positron lifetimes close to 170 ps measured using positrons emitted directly from the source point to the presence of vacancies on the dislocation lines. SEM and AFM images show that surface roughness depends rather on pressure of sandblasting than time of exposition.
Słowa kluczowe
Czasopismo
Rocznik
Strony
721--724
Opis fizyczny
Bibliogr. 9 poz., rys.
Twórcy
autor
  • Joint Institute for Nuclear Research, 6 Joliot Curie Str., 141980 Dubna, Moscow region, Russian Federation and Institute of Nuclear Physics of the Polish Academy of Sciences, 152 Radzikowskiego Str., 31-342 Kraków, Poland
autor
  • Northern Arctic Federal University, 163002 Severnaya Dvina Emb. 17, Arkhangelsk, Russian Federation
autor
  • Joint Institute for Nuclear Research, 6 Joliot Curie Str., 141980 Dubna, Moscow region, Russian Federation and Institute of Electrophysics and Radiation Technologies NAS of Ukraine, 28 Chernyshevsky Str., 61002 Kharkov, Ukraine
Bibliografia
  • 1. Hu, Y., Xue, X., & Wu, Y. (2014). Slow positron beam study of hydrogen ion implanted ZnO thin films. Radiat. Phys. Chem., 101, 20–23. DOI: 10.1016/j.radphyschem.2014.03.045.
  • 2. Dryzek, J. (2011). Positron studies of subsurface zone in pure iron induced by sliding. Tribol. Lett., 42, 9–15. DOI: 10.1007/s11249-010-9742-x.
  • 3. Horodek, P., Dryzek, J., & Wróbel, M. (2012). Positron annihilation study of defects induced by various cutting methods in stainless steel grade 304. Tribol. Lett., 45, 341–347. DOI: 10.1007/s11249-011-9890-7.
  • 4. Dryzek, E. (2003). Defect depth profiling after sphere indentation and blasting in aluminium and aluminium alloy detected by positron annihilation. J. Mater. Sci.,38, 3755–3763. DOI: 10.1023/A:1025976031584.
  • 5. Sidorin, A., Meshkov, I., Akhmanova, E., Eseev, M., Kobets, A., Lokhmatov, V., Pavlov, V., Rudakov, A., & Yakovenko, S. (2013). The LEPTA facility for fundamental studies of positronium physics and positron spectroscopy. Mater. Sci. Forum, 733, 291–296. DOI:10.4028/www.scientific.net/MSF.733.291.
  • 6. Kansy, J. (1996). Microcomputer program for analysis of positron annihilation lifetime spectra. Nucl. Instrum. Methods Phys. Res. Sect. A-Accel. Spectrom. Dect. Assoc. Equip., 374, 235–244. DOI: 10.1016/0168-9002(96)00075-7.
  • 7. Van Veen, A., Schut, H., Clement, M., Kruseman, A., Ijpma, M. R., & De Nijs, J. M. M. (1995). VEPFIT applied to depth profiling problems. Appl. Surf. Sci., 85, 216–224. DOI: 10.1016/0169-4332(94)00334-3.
  • 8. Dryzek, J., & Horodek, P. (2008). GEANT4 simulation of slow positron beam implantation profiles. Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms, 266(18), 4000–4009. DOI:10.1016/j.nimb.2008.06.033.
  • 9. Wu, Y. C., & Jean, Y. C. (2007). Hydrogen-damaged defects near the surface in heavily deformed iron and steels investigated by slow positron annihilation spectroscopy. Phys. Status Solidi C, 4, 3506–3509. DOI: 10.1002/pssc.200675826.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f86c64ab-26b3-4146-ba0b-acb2df4260c1
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