- Cited by 47
Berdonosova, Elena A. Klyamkin, Semen N. Zadorozhnyy, Vladislav Yu. Zadorozhnyy, Mikhail Yu. Geodakian, Karen V. Gorshenkov, Mikhail V. and Kaloshkin, Sergey D. 2016. Calorimetric study of peculiar hydrogenation behavior of nanocrystalline TiFe. Journal of Alloys and Compounds, Vol. 688, p. 1181.
Biesiekierski, Arne Lin, Jixing Li, Yuncang Ping, Dehai Yamabe-Mitarai, Yoko and Wen, Cuie 2016. Investigations into Ti–(Nb,Ta)–Fe alloys for biomedical applications. Acta Biomaterialia, Vol. 32, p. 336.
Valiev, R.Z. Estrin, Y. Horita, Z. Langdon, T.G. Zehetbauer, M.J. and Zhu, Y.T. 2016. Fundamentals of Superior Properties in Bulk NanoSPD Materials. Materials Research Letters, Vol. 4, Issue. 1, p. 1.
Wan, Li and Thompson, Gregory 2016. Influence of Fe underlayers on stress evolution of Ti in Ti/Fe multilayers. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, Vol. 34, Issue. 6, p. 061501.
Zadorozhnyy, M. Yu. Klyamkin, S. N. Strugova, D. V. Olifirov, L. K. Milovzorov, G. S. Kaloshkin, S. D. and Zadorozhnyy, V. Yu. 2016. Deposition of polymer coating on metallic powder through ball milling: Application to hydrogen storage intermetallics. International Journal of Energy Research, Vol. 40, Issue. 2, p. 273.
Choi, Young Joon Westman, Matthew Karkamkar, Abhi Chun, Jaehun and Rönnebro, Ewa C. E. 2015. Synthesis and Engineering Materials Properties of Fluid-Phase Chemical Hydrogen Storage Materials for Automotive Applications. Energy & Fuels, Vol. 29, Issue. 10, p. 6695.
Short, M. Bridges, F. Keiber, T. Rogl, G. and Rogl, P. 2015. A comparison of the local structure in ball-milled and hand ground skutterudite samples using EXAFS. Intermetallics, Vol. 63, p. 80.
Tran, Nick E. and Lambrakos, S.G. 2014. Powder Materials: Current Research and Industrial Practices III.
Bonifacio-Martínez, J. Ureña-Núñez, F. and Iturbe-García, J. L. 2013. Characteristics of the Ti1.27Fe + 11 wt.% Ni Composite Obtained by Arc Melting and Ball Milling. Journal of Chemistry, Vol. 2013, p. 1.
Chen, Bin-Hao Kuo, Chia-Hung Ku, Jie-Ren Yan, Pei-Shan Huang, Chun-Ju Jeng, Ming-Shan and Tsau, Fang-Hei 2013. Highly improved with hydrogen storage capacity and fast kinetics in Mg-based nanocomposites by CNTs. Journal of Alloys and Compounds, Vol. 568, p. 78.
Takacs, Laszlo 2013. The historical development of mechanochemistry. Chemical Society Reviews, Vol. 42, Issue. 18, p. 7649.
Ershova, O.G. Dobrovolsky, V.D. Solonin, Yu.M. and Khyzhun, O.Yu. 2011. Hydrogen-sorption and thermodynamic characteristics of mechanically grinded TiH1.9 as studied using thermal desorption spectroscopy. Journal of Alloys and Compounds, Vol. 509, Issue. 1, p. 128.
Huot, Jacques 2010. Handbook of Hydrogen Storage.
Rogers, Matthew Barcelo, Steven Chen, Xiaobo Richardson, Thomas J. Berube, Vincent Chen, Gang Dresselhaus, Mildred S. Grigoropoulos, Costas P. and Mao, Samuel S. 2009. Hydrogen storage characteristics of nanograined free-standing magnesium–nickel films. Applied Physics A, Vol. 96, Issue. 2, p. 349.
Guo, Z.X. Shang, C. and Aguey-Zinsou, K.F. 2008. Materials challenges for hydrogen storage. Journal of the European Ceramic Society, Vol. 28, Issue. 7, p. 1467.
Abrashev, B. Bliznakov, S. Spassov, T. and Popov, A. 2007. Electrochemical hydriding of nanocrystalline TiFe alloys. Journal of Applied Electrochemistry, Vol. 37, Issue. 7, p. 871.
Trudeau, Michel L. 2007. Nanostructured Materials.
Tran, Nick E. Lambrakos, S.G. and Imam, M. Ashraf 2006. Analyses of hydrogen sorption kinetics and thermodynamics of magnesium–misch metal alloys. Journal of Alloys and Compounds, Vol. 407, Issue. 1-2, p. 240.
Galvan, D. Pei, Y.T. and De Hosson, J.Th.M. 2005. TEM characterization of a Cr/Ti/TiC graded interlayer for magnetron-sputtered TiC/a-C:H nanocomposite coatings. Acta Materialia, Vol. 53, Issue. 14, p. 3925.
Irissou, E Blouin, M Roué, L Huot, J Schulz, R and Guay, D 2002. Plasma-sprayed nanocrystalline Ti–Ru–Fe–O coatings for the electrocatalysis of hydrogen evolution reaction. Journal of Alloys and Compounds, Vol. 345, Issue. 1-2, p. 228.
Check if you have access via personal or institutional login
Nanocrystalline FeTi has been prepared in two ways: by ball milling the intermetallic compound and mechanically alloying a mixture of the elemental powders. The materials obtained in each case are identical. The reaction proceeds via the formation of interfacial β–Ti(Fe) which then grows to include all of the material present. Oxygen levels above 3 at. % suppress this reaction and lead to the formation of amorphous Fe–Ti.
This list contains references from the content that can be linked to their source. For a full set of references and notes please see the PDF or HTML where available.1J. J. Reilly and R. H. Wiswall Jr., Inorg. Chem. 13, 218 (1974).
4B. L. Chu , S. M. Lee , and T. P. Perng , Int. J. Hydrogen Energy 16, 413 (1991).
6D. P. Dolgin , M. A. Vanek , T. McGory , and D. J. Ham , J. Non-Cryst. Solids 87, 281 (1986).
7R. Brüning , Z. Altounian , J. O. Ström-Olsen , and L. Schultz , Mater. Sci. Eng. 97, 317 (1988).
10E. Hellstern , H. J. Fecht , Z. Fu , and W. L. Johnson , J. Mater. Res. 4, 1292 (1989).
11J. L. Murray , Bull. Alloy Phase Diagrams 2, 320 (1981).
12R. Ray , B. C. Giessen , and N. J. Grant , Metall. Trans. 3, 627 (1972).
14J. S. Benjamin and T. E. Volin , Metall. Trans. 5, 1929 (1974).
15R. B. Schwarz , R. R. Petrich , and C. K. Saw , J. Non-Cryst. Solids 76, 287 (1985).
17F. Petzoldt , B. Scholz , and H-D. Kunze , Mater. Sci. Eng. 97, 25 (1988).
18E. Batalla , J. O. Ström-OIsen , Z. Altounian , D. Boothroyd , and R. Harris , J. Mater. Res. 1, 765 (1986).
Email your librarian or administrator to recommend adding this journal to your organisation's collection.
- ISSN: 0884-2914
- EISSN: 2044-5326
- URL: /core/journals/journal-of-materials-research