Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The hydrogen absorption and the formation of the hydride phase at cathodic polarization of annealed [alfa]-Ti have been studied by the kinetic hydrogen extraction and by the X-ray diffraction methods. The electrochemical parameters of cathodic hydrogen charging have been selected in order to obtain the hydrogen present in the solid solution of [alfa]-Ti lattice and the hydride phase to be formed. In 2M NaOH solution, the hydride phase has been already formed at cathodic polarization lower than 1 mA/cm2. In the case of 0.1M NaOH, the polarization regions (i) of hydrogen dissolution in the solid phase (ii) of hydride precipitation and (iii) of formation the increased amount of hydride phase have been distinguished in the course of application of increased cathodic polarization. Hydrogen dissolved in the metal lattice produces its dilatation, whereas presence of hydride phase causes the contraction of Ti lattice. Increased cathodic polarization causes the increase it the amount of hydride phase and the increase in the hydrogen content in TiHx phase as well.
Wydawca
Czasopismo
Rocznik
Tom
Strony
98--106
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
autor
autor
- Institute of Physical Chemistry, Polish Academy of Sciences, Warsaw, Poland
Bibliografia
- 1. Haag RM., Shipko F.J: The titanium - hydrogen system. J. Amer. Chem. Soc. 78 (1965), pp. 5156-5159.
- 2. Livanov W.A, Bukhanova A.A, Kolachev B.A: Vodorod w titane. Gos. Nauchno-tekhnich. izdatelstvo literatury po chernoj i cvetnoj metalurgii, Moskva, 1962.
- 3. Azarkh Z.M., Gavrilov P.I.: Strukturnyje izmenenija gidtrida titana pri bolshikh koncentraciakh vodoroda. Kristallografija 15 (1970), pp. 275-279.
- 4. Philips I.I, Poole P., Shreir L.L.: Hydride formation during cathodic polarization of Ti - L Effect of current density on kinetics of growth and composition of hydride. Corrosion Sci. 12 (1972), pp. 855-866.
- 5. Borchers C.H., Leonov A.V., Khomrnko T.I., Morozova O.S.: Mechanism and kinetics of mechanically induced transformation of Ti and titanium hydride: Effect of reaction medium on microstructure, morphology and hydrogen-uptake properties. J. Materials Sciences 39 (2004), pp. 5259-5262.
- 6. Schur D.V., Zaginajchenko S.Y., Adejev V.M., Voitovich V.B., Lyashenkov A.A, Trefilov V.I.: Phase transformation in titanium hydrides. Int. J. Hydrogen Energy 21 (1996), pp. 1121-1124.
- 7. Irving P.E., Beevers C.J.: Some metallographic and lattice parameter observations on titanium hydride. Metalurg. Trans. 2 (1971), pp. 613-615.
- 8. JCPDS PDF-2/2001 database
- 9. Trefilov V.I., Timofeeva I.I., Klochkov LI., Morozov I.A, Morozova RA: Effects of temperature change and hydrogen content on titanium hydride crystal lattice volume. Int. J. Hydrogen Energy 21 (1996), pp. 1101-1103.
- 10. Toshio Ogawa, Ken'ichi Yokoyama, Kenzo Asaoka, Jun'ichi Sakai: Distribution and thermal desorption behavior of hydrogen in titanium alloys immersed in acidic fluoride solutions. J. Alloys and Compounds 396 (2005), pp. 269-274.
- 11. Tal-Gutelmacher E., Eliezer D.: High fugacity hydrogen effects at room temperature in titanium based alloys. J. Alloys and Compounds 404-406 (2005), pp. 613-616.
- 12. Briant c.L, Wang Z.F., Chollocoop N.: Hydrogen embrittlement of commercial purity titanium. Corrosion Science 44 (2002), pp. 1875-1888.
- 13. Forolius Z.A: Factors influencing absorption of hydrogen in titanium from aqueous electrolytic solutions. Proc of 4th Conference Titanium-80. Sciences and Technology, Kyoto, Japan, 1980, H.Kimura, O. Izumu Eds., Publ. The Metall. Soc. Of AIME, 1980, NY, pp. 2705-2711.
- 14. Łunarska E., Zaborski S.: Tworzenie się fazy wodorkowej podczas obróbki elektrochemiczno-ściernej stopu tytanu. Prace I Ogólnopolskiej Konferencji Naukowej "Nowoczesne technologie w inżynierii powierzchni", Łódź, wrzesień 1999, str. 425-428.
- 15. Łunarska E., Zaborski S.: Hydrogen effects in anodic grinding of Ti alloy. Wear 249 (2001), pp. 606-616.
- 16. Katsutoshi Takashima, Ken'ichi Yokoyama, Kenzo Asaoka, Jun'ichi Sakai: Effects of potential on hydrogen absorption and desorption behaviors of titanium in neutral fluoride solutions. J. Alloys and Compounds 431 (2007), pp. 203-207.
- 17. Zaborski S.: Elektrochemiczna intensyfikacja obróbki ściernej materiałów trudno obrabialnych. Oficyna Wyd. Politechniki Wrocławskiej, Wroclaw, 2000.
- 18. Senkov O.N., Dubois M., Jonas I.J.: Elastic moduli of titanium-hydrogen alloys in the temperature range 20° C to 1100° C. Met. And Mater. Trans. A29 (1996), pp. 3963-3970.
- 19. Daigo Setayama, Junji Matsumaga, Hiroaki Muta, Masayohi Uno, Shinsuke Yamanaka: Mechanical properties of titanium hydride, Inetrn. J. Alloys and Compounds, 381 (2004) pp. 215-220
- 20. Brass AM., Chene J.: Hydrogen absorption in titanium aluminides exposed to aqueous solutions at room temperature. Materials Sciences and Engineering A272 (1999), pp. 269-278.
- 21. Polyanskiy AM., Polyanskiy V.A., Popov-Diumin D.B.: The use of the analyzer AV-1 for studying dynamics of high-temperature vacuum extraction of hydrogen from metallic probes. Materialovedenie 98 (2005), pp. 51-54.
- 22. Bojarski Z., Łagiewka E.: Rentgenowska analiza strukturalna. Wydawnictwo Uniwersytetu Śląskiego, Katowice, 1995.
- 23. Takasaki A, Furuya Y., Ojima K., Taneda Y: Hydrogen evolution from cathodically charged twophase (Ti3Al + TiAl) titanium aluminides. J. Alloys and Compounds 224 (1995), pp. 299-304.
- 24. Takasaki A, Homma T.: Hydrogen evolution from cathodically charged titanium aluminide alloy Ti-24Al-Nb. J. Alloys and Compounds 340 (2002) pp. 127-131.
- 25. Spivak L, Skriabina N.: Effekt plasticheskogo prevrashchenia i pamiati formy v Zr-H, Fizyka Metallov i Metallovedenie, 81 (1996) pp. 176-171.
- 26. Spivak L, Łunarska E.: The effect of hydrogen in the shear modulus of polycrystalline aluminium, Technical Physics Letters, 32 (2006) pp. 55-57.
- 27. Christodoulou L, Clarke LA: Hydrogen effects on fracture toughness of XD titanium aluminide. Hydrogen Effects on Materials Behavior. N.R. Mondy, A.W. Thompson [eds.], Mineral, Metals & Materials Soc., 1990, pp. 515-522.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG5-0030-0023