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M. Trepczyńska-Łent and T. Szykowny

: Chichester. [11] Senczyk, D. (1974). Laboratory of X-ray crystallography. Poznań: Ed. Poznan University of Technology. [12] Lv, Z.Q., Zhang, F.C., Sun, S.H. & other (2008). First-principles study on the mechanical, electronic and magnetic properties of Fe 3 C. Computational Materials Science. 44, 690-694. [13] Herbstein, F.H. & Smuts, J. (1964). Comparison of X-ray and neutron-diffraction refinements of the structure of cementite Fe 3 C. Acta Crystallographica. 17, 1331-1332. [14] Stuart, H., Ridley, N. (1966). Thermal expansion of cementite

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Lucia Zaušková, Andrej Czán, Michal Šajgalík, Jozef Pobijak and Matej Mikloš

References [1] B. Griffiths, Manufacturing Surface Technology: Surface Integrity & Functional Performance, Penton Press, 256 p., (2001) [2] W. Grzesik, Advanced Machining Processes of Metallic Materials: Theory, Modelling and Applications, Elsevier, 446 p., (2008) [3] A. Czan, E. Tillova, J. Semcer, J. Pilc, Surface and subsurface residual stresses after machining and their analysis by x-ray diffraction, Communications - Scientific Letters of the University of Zilina, p. 69-76, (2013) [4] D

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Patrik Novák, Aleksandr Gokhman, Edmund Dobročka, Jozef Bokor and Stanislav Pecko

276 No. 1-3 (2000), 123–142. [20] MARQUES, M. J.—PINA, J.—DIAS, A. M.—LEBRUN, J. L.—FEUGEAS, J. : X-ray diffraction characterization of ion-implanted austenitic stainless steel, Surface and Coatings Technology 95 No. 1 (2015), 8–16.

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Elżbieta Jartych, Ludmila M. Kubalova and Victoria I. Fadeeva

References 1. Bansal, C., Gao, Z.-Q., Hong, L. B., & Fultz, B. (1994). Phases and phase stabilities of Fe 3 X alloys (X=Al, As, Ge, In, Sb, Si, Sn, Zn) prepared by mechanical alloying. J. Appl. Phys ., 76 , 5961–5966. DOI: 10.1063/1.358375. 2. Kubalova, L. M., & Fadeeva, V. I. (2014). Struktura mechanosyntezirovannych splavov zheleza s p-elementami (Ai, Si, Ge, B) ekvatomnogo sostava. Izviestia RAN. Seria Fizicheskaya , 78 , 131–134. DOI: 10.7868/S0367676513090251. 3. Ackermann, M., Wagner, H.-G., Gonser, U., & Steiner, P. (1986). Bulk and surface

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Marianna Hundáková, Marta Valášková, Magda Samlíková and Erich Pazdziora

-80-87294-35-2. [16] KNEIFLOVÁ, J. Hodnocení baktericidní účinnosti dezinfekčních prostředků suspenzní mikrometodou. (Evaluation of the antibacterial effect of disinfectants using a suspension micro-method). Čs. epidemiologie, mikrobiologie a imunologie. 1988, XXXVII, pp. 97-104. [17] WALKER, G. F. Mechanism of dehydration of Mg-vermiculite. Clays and Clay Minerals. 1956, IV, pp. 101-115. [18] MARCOS, C., ARANGO, Y. C., RODRIGUEZ, I. X-ray diffraction studies of the thermal behaviour of commercial vermiculites. Applied Clay Science. 2009, XLII, pp

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M. Trepczyńska-Łent

: Wydawnictwo Uczelniane Politechniki Poznańskiej 205 (in Polish). [8] www.msm.cam.ac.uk/phase-trans/2003/Lattices2/cementite.data.txt [9] Battezzati, L., Baricco, M., Curiotto, S. (2005). Non-stoichiometric cementite by rapid solidification of cast iron. Acta Materialia. 53, 1849-1856. [10] Lv, Z.Q., Zhang, F.C., Sun, S.H. & other (2008). First-principles study on the mechanical, electronic and magnetic properties of Fe 3 C. Computational Materials Science. 44, 690-694. [11] Herbstein, F.H., Smuts, J. (1964). Comparison of X-ray and neutron-diffraction

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B.B.V.S. Vara Prasad, B. Rajesh Babu and M. Siva Ram Prasad

J., W ijn H.P.J., Ferrites , Philips’ Technical Library, Eindhoven, 1959, p. 149. [8] L akhani V.K, P athak T.K., V asoya N.H., M odi K.B., Solid State Sci. , 13 (3), (2011), 539. [9] C ullity B.D., Elements of X-ray Diffraction , Addison-Wesley Publishing Company, Massachusetts, 1978. [10] W ei Q.-M., L i J.-B., C hen Y.-J., H an Y.-S., Mater. Charact. , 47 (2001), 247. [11] M ohammed K.A., A l -R awas A.D., G ismelseed A.M., S ellai A., W idatallah H.M., Y ousif A., E lzain M.E., S hongwe M., Physica B , 407, (2012

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A. Hajalilou, M. Hashim, R. Ebrahimi-Kahrizsangi, H. Mohamed Kamari and S. Kanagesan

.H., Metall. Mater. Trans. A, 26 (1995), 2389. http://dx.doi.org/10.1007/BF02671252 [17] Abdellaoui M., Gaffet E., J. Alloy. Compd., 209 (1994), 351. http://dx.doi.org/10.1016/0925-8388(94)91124-X [18] Garcia-diaz A., Philips D.T., Principles of experimental design and analysis, Chapman and Hall, London, 1995. [19] Montgomery D.C., Design and analysis of experiments, 4th ed., John Wiley and Sons, New York, 1997. [20] Klug H.P., Alexander L.E., X-ray Diffraction

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Silvia Imre, Timea Haidu, Oana Ponta, Szende Vancea, Camil-Eugen Vari and Amelia Tero-Vescan

Racemic Ibuprofen. Pharmaceut Res. 2013;30(1):81-89. 8. Kotar A, Kotar M, Sketa P, Plavec J. Potential of Solid-state NMR and SEM in Characterization of Tablets of Ibuprofen. Curr Pharm Anal. 2015;11(2):124-130. 9. Rossi P, Macedi E, Paoli P, et al. Solid Solid Transition between Hydrated Racemic Compound and Anhydrous Conglomerate in Na-Ibuprofen: A Combined X-ray Diffraction, Solid-State NMR, Calorimetric, and Computational Study. Cryst Growth Des. 2014;14(5):2441-2452. 10. Ahuja S, Scypinski S. Handbook of Modern

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] B.D. Cullity, Elements of X-ray diffractions, 2nd ed., Addison - Wesley, Massachusetts (1978). [14] J. Zelechowski, A. Kłyszewski, Identification of nanostructure in aluminium alloys by X-ray diffraction, Arch Metall Mater 53 , 301-305 (2008). [15] B. Gagorowska, B. Kucharska, M. Dus - Sitek, A. Tokarz, Comparative X-ray investigation of Ni/Cu systems heated in the 250-350_C temperature range, Mater Sci-Poland 26 , 149-155 (2008). [16] B. Kucharska, E. Kulej, A. Wróbel, Thermal stability of the Cu/Ni multilayer