Search Results

You are looking at 1 - 10 of 3,151 items for :

Clear All
Open access

J. Miettinen, K. Lilova and G. Vassilev

References [1] J. Miettinen, G.Vassilev, Thermodynamic description of ternary Fe-B-X systems. Part 1: Fe-B-Cr, submitted to Arch. Metall. Mater. 59, 2 (2014) DOI:10.2478/amm-2014-0099. [2] J. Miettinen, G.Vassilev, Thermodynamic description of ternary Fe-B-X systems. Part 2: Fe-B-Ni, submitted to Arch. Metall. Mater. 59, 2 (2014) DOI:10.2478/amm-2014-0100. [3] J. Miettinen, S. Louhenkilpi, H. Kytönen, J. Laine, Math. Comput. Simulat. 80, 1536 (2010) . [4] A. Burbelko, J. Falkus, W. Kapturkiewicz

Open access

J. Miettinen and G. Vassilev

References [1] J. Miettinen, G. Vassilev, Thermodynamic description of ternary Fe-B-Xsystems. Part 1: Fe-B-Cr, submitted to Arch. Metall. Mater. 59, 611 (2011). [2] T. Tokunga, H. Ohtani, M. Hasebe, Mater. Trans. 46, 1193 (2005). [3] B.-J. Lee, CALPHAD 17, 251 (1993). [4] C.E. Campbell, U.R. Kattner, J. Phase Equilibria 20, 485 (1999). [5] V. Raghavan, Phase Diagrams of Ternary Iron Alloys - Part 6A, Indian Institute of Metals, Calcutta, 387-94 (1992). [6] C. Qiu

Open access

A. Romanski and J. Konstanty

References [1] J. Konstant y, Industrial Diamond Review 60, 55 (2000). [2] J. Konstanty, Powder Metallurgy 56, 3 (2013). [3] Anon., Marmomacchine International 18, 156 (1997). [4] I.E. Clark, B.-J. Kamphuis, Industrial Diamond Review 62, 177 (2002). [5] Anon., Industrial Diamond Review 65, 45 (2005). [6] J. Konstanty, T.F. Stephenson, D. Tyrala, Diamond Tooling Journal 3, 26 (2011). [7] D. Tyrała, Kształtowanie strukturyiwłasnosci spieków Fe

Open access

Mariusz Hasiak

References 1. Matsuura, Y. (2006). Recent development of Nd-Fe-B sintered magnets and their applications. J. Magn. Magn. Mater. , 303 , 344–347. DOI: 10.1016/j.jmmm.2006.01.171. 2. Leonowicz, M. (1990). Magnetic properties and microstructure of Nd 16 Fe 76−x M x B 8 magnets (M = Ga, Cr, Nb, Bi, Sn, Zr, W, V, Mo, Mn). J. Magn. Magn. Mater ., 83 , 211–213. DOI: 10.1016/0304-8853(90)90489-D. 3. Chang, H. W., Shih, M. F., Chang, C. W., Hsieh, C. C., Fang, Y. K., Chang, W. C., & Sun, A. C. (2008). Magnetic properties and micro structure of directly

Open access

Jacek Szczerba, Ryszard Prorok, Paweł Stoch, Edyta Śnieżek and Ilona Jastrzębska

–169. DOI: 10.1111/j.1151-2916.1961.tb13738.x. 4. Waychunas, G. A. (1983). Mössbauer, EXAFS, and X-ray diffraction study of Fe 3+ clusters in MgO:Fe and magnesiowüstite (Mg,Fe) 1-x O-evidence for specific cluster geometries. J. Mater. Sci ., 18 (1), 195–207. DOI: 10.1007/BF00543826. 5. Perez, A., Marest, G., Sawicka, B. D., Sawicki, J. A., & Tyliszczak, T. (1983). Iron-ion – implantation effects in MgO crystals. Phys. Rev. B , 28 (3), 1227–1238. DOI: 10.1103/PhysRevB.28.1227. 6. Bhide, V. G., & Tambe, B. R. (1969). Investigation of the MgO:Fe system using the

Open access

I. Bednarczyk and M. Jabłońska

). J. Bystrzycki, Materiały metalowe z udziałem faz międzymetalicznych, Wydawnictwo BEL Studio, 89-112 Warszawa 2006. J. Bystrzycki, R. A. Varin, Environmental sensitivity and mechanical behavior of boron-doped Fe-45 at.% Al intermetalic in the temperature range from 77 to 1000 K, Materials Science and Engineering A270 , 151-161 (1999). P. I. Ferreira, A. A. Couto, J. C. C. de Paola, The effects of chromium addition and heat treatment on the microstructure and tensile properties of Fe-24Al (at.%), Materials Science

Open access

K. Stan, L. Litynska-Dobrzynska, A. Góral and A. Wierzbicka-Miernik

(1995). [12] F. Zupanic, T. Boncina, A. Krizman, W. Grogger, Ch. Gspan, B. Markoli, S. Spaic, J. Alloy Compd. 452 , 343 (2008). [13] K. Stan, L. Litynska- Dobrzynska, J. Dutkiewicz, Ł. Rogal, A. M. Janus, TEM study of quasicrystals in Al-Mn-Fe melt-spun ribbon, Solid State Phenom. 186 , 255 (2012). [14] R. Santamarta, A. Pasko, J. Pons, E. Cesari, P. Ochin, Archives of Metallurgy and Materials 49 , 881 (2004).

Open access

Junting Zhang, Xiaochao Cui, Jiankai Ma and Youhong Wang

1 Introduction With good electrical conductivity and high strength, copper and copper based alloys are widely used for electrical components, such as electrical connectors, lead frames, conducting wires and so on [1 – 5] . Presently, the research of copper alloys with high strength and high electrical conductivity is concentrated on Cu–Ag [6 – 8] , Cu–Nb [9 , 10] , Cu–Cr [11 – 17] , Cu–Fe [18 – 21] , Cu–Mg [22] and Cu–Mn [23] series. However, all these alloys have their own shortcomings, such as high cost, feeding difficulty and low conductivity

Open access

K. Wieczerzak, P. Bała, M. Stępień, G. Cios and T. Kozieł

, the Institute of Metals, The Bath Press, UK, 143 (1988). [27] K. Bungardt, E. Kunze, E. Horn, A, Arch. Eisenhüttenwes. 29 (3), 193 (1958). [28] N.R. Griffing, W.D. Forgeng, G.W. Healy, Iron and Steel Division – C-Cr-Fe Liquidus Surface, Trans. TMS-AIME 224 , (1962). [29] R.S. Jackson, J. Iron Steel I. 208 (2), 163 (1970).

Open access

M. Szwaja, P. Pawlik, J. Wysłocki and P. Gębara

Comp. 184 , 243 (1992). A. Manaf, R. A. Buckley, H. A. Davies, M. Leonowicz, J. Magn. Magn. Mat. 101 , 360 (1991). K. Pawlik, P. Pawlik, J. J. Wysłocki, Wpływ zawartości boru na zdolność formowania szkiełmetalicznych oraz właściwości magnetyczne stopów Pr 9 Fe 58- x Co 13 Zr 1 Nb 4 B 15+ x (gdzie x = 0, 3, 6, 8), XI Międzynarodowa Konferencja Naukowa "Nowe technologie w metalurgii i inżynierii materiałowej", WIMPiFS PCz, Materiały Konferencyjne nr 2, Częstochowa 2010. R. Tamura, S