Accès libre

Hydride Formation at Cathodic Charging of α-Ti

E. Łunarska
E. Łunarska
, 
O. Chernyayeva
O. Chernyayeva
 et 
D. Lisovytskiy
D. Lisovytskiy
   | 23 sept. 2008
Advances in Materials Science's Cover Image
À propos de cet article
Article précédent
Article suivant
Citez
Publié en ligne: 23 sept. 2008
Pages: 105 - 114
DOI: https://doi.org/10.2478/v10077-008-0012-7
Mots clés
This content is open access.

Haag R. M., Shipko F. J.: The titanium - hydrogen system. J. Amer. Chem. Soc. 78 (1965), pp. 5156-5159.Search in Google Scholar

Livanov W. A., Bukhanova A. A., Kolachev B. A.: Vodorod w titane. Gos. Nauchnotekhnich. izdatelstvo literatury po chernoj i cvetnoj metalurgii, Moskva, 1962.Search in Google Scholar

Azarkh Z. M., Gavrilov P. I.: Strukturnyje izmenenija gidtrida titana pri bolshikh koncentraciakh vodoroda. Kristallografija 15 (1970), pp. 275-279.Search in Google Scholar

Philips I. I., Poole P., Shreir L. L.: Hydride formation during cathodic polarization of Ti - I. Effect of current density on kinetics of growth and composition of hydride. Corrosion Sci. 12 (1972), pp. 855-866.Search in Google Scholar

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.Search in Google Scholar

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.Search in Google Scholar

Irving P. E., Beevers C. J.: Some metallographic and lattice parameter observations on titanium hydride. Metalurg. Trans. 2 (1971), pp. 613-615.Search in Google Scholar

JCPDS PDF-2/2001 databaseSearch in Google Scholar

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.Search in Google Scholar

Briant C. L., Wang Z. F., Chollocoop N.: Hydrogen embrittlement of commercial purity titanium. Corrosion Science 44 (2002), pp. 1875-1888.Search in Google Scholar

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.Search in Google Scholar

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.Search in Google Scholar

Lunarska E., Zaborski S.: Hydrogen effects in anodic grinding of Ti alloy. Wear 249 (2001), pp. 606-616.Search in Google Scholar

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.Search in Google Scholar

Zaborski S.: Elektrochemiczna intensyfikacja obróbki ściernej materiałów trudno obrabialnych. Oficyna Wyd. Politechniki Wrocławskiej, Wrocław, 2000.Search in Google Scholar

Senkov O. N., Dubois M., Jonas I. J.: Elastic moduli of titanium-hydrogen alloys in the temperature range 200° C to 1100° C. Met. And Mater. Trans. A29 (1996), pp. 3963-3970.Search in Google Scholar

Daigo Setayama, Junji Matsumaga, Hiroaki Muta, Masayohi Uno, Shinsuke Yamanaka: Mechanical properties of titanium hydride, Inetrn. J. Alloys and Compounds, 381 (2004) pp. 215-220Search in Google Scholar

Brass A. M., Chene J.: Hydrogen absorption in titanium aluminides exposed to aqueous solutions at room temperature. Materials Sciences and Engineering A272 (1999), pp. 269-278.Search in Google Scholar

Polyanskiy A. M., 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.Search in Google Scholar

Bojarski Z., Łagiewka E.: Rentgenowska analiza strukturalna. Wydawnictwo Uniwersytetu Śląskiego, Katowice, 1995.Search in Google Scholar

Takasaki A., Furuya Y., Ojima K., Taneda Y.: Hydrogen evolution from cathodically charged two-phase (Ti3Al + TiAl) titanium aluminides. J. Alloys and Compounds 224 (1995), pp. 299-304.Search in Google Scholar

Takasaki A., Homma T.: Hydrogen evolution from cathodically charged titanium aluminide alloy Ti-24Al-Nb. J. Alloys and Compounds 340 (2002) pp. 127-131.Search in Google Scholar

Spivak L., Skriabina N.: Effekt plasticheskogo prevrashchenia i pamiati formy v Zr-H, Fizyka Metallov i Metallovedenie, 81 (1996) pp. 176-171.Search in Google Scholar

Spivak L., Lunarska E.: The effect of hydrogen in the shear modulus of polycrystalline aluminium, Technical Physics Letters, 32 (2006) pp. 55-57.Search in Google Scholar

Christodoulou L., Clarke I. A.: 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.Search in Google Scholar

Trefilov V. I., Timofeeva I. I., Klochkov L. I., Morozov I. A., Morozova R. A.: Effects of temperature change and hydrogen content on titanium hydride crystal lattice volume. Int. J. Hydrogen Energy 21 (1996), pp. 1101-1103.Search in Google Scholar

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.Search in Google Scholar

eISSN:
2083-4799
ISSN:
1730-2439
Langue:
Anglais
Périodicité:
4 fois par an
Sujets de la revue:
Materials Sciences, Functional and Smart Materials
RSS Feed de la revue