Directionally solidified sample of Fe-Fe3C eutectic alloy were produced under an argon atmosphere in a vacuum Bridgman-type furnace to study the eutectic growth with ν = 167 μm/s pulling rate and constant temperature gradient G = 33.5 K/mm. Since how the growth texture of eutectic cementite is related to its growth morphology remains unclear, the current study aims to examine this relationship. The technique such as X-ray diffraction, have been used for the crystallographic analysis of carbide particles in white cast irons.
 Jiyang, Z. (2009). Colour metallography of cast iron. Chapter 5–White cast iron. China Foundry, 447-462.
 Kagawa, A., Okamoto, T. & Matsumoto, H. (1987). Young’s modules and thermal expansion of pure iron-cementite alloy castings. Acta Materialia. 35(4), 797-1000.
 Mangan, M.A. & Shiflet, G.J. (1999). The Pitsch-Petch orientation relationship in ferrous pearlite at small under-cooling. Metallurgical and Materials Transactions. 30A, 2767-2781.
 Gonser, U., Ron, M., Ruppensberg, H., Kuene, W. & Trautwein, A. (1972). Spin orientation determination by correlating X-ray textures with Mössbauer line intensities in Fe3C. Physica Status Solidi (a). 10(2), 493-499.
 Hartmann, S. & Ruppersberg, H. (2009). Thermoelastic strain of the lattice plane spacings in white cast iron. Materials Science and Engineering A. 325, 153-159.
 Battezzati, L., Baricco, M. & Curiotto, S. (2005). Non-stoichiometric cementite by rapid solidification of cast iron. Acta Materialia. 53, 1849-1856.
 Nikolussi, M., Shang, S.L. & other (2008). Extreme elastic anisotropy of cementite, Fe3C: first principles calculations and experimental evidence. Scripta Materialla. 59, 814-817.
 Trepczyńska-Łent, M. (2013). Possibilities of the materials properties improvement for the cementite eutectic by means of unidirectional solidification. Archives of Metallurgy and Materials. 58(3), 987-991.
 Jenkins, R. (2000). X-ray Techniques: Overview in Encyclopedia of Analytical Chemistry (pp.13269-13288) In R.A. Meyers (Ed.), John Wiley & Sons Ltd: Chichester.
 Senczyk, D. (1974). Laboratory of X-ray crystallography. Poznań: Ed. Poznan University of Technology.
 Lv, Z.Q., Zhang, F.C., Sun, S.H. & other (2008). First-principles study on the mechanical, electronic and magnetic properties of Fe3C. Computational Materials Science. 44, 690-694.
 Herbstein, F.H. & Smuts, J. (1964). Comparison of X-ray and neutron-diffraction refinements of the structure of cementite Fe3C. Acta Crystallographica. 17, 1331-1332.
 Stuart, H., Ridley, N. (1966). Thermal expansion of cementite and other phases. Journal of the Iron and Steel Institute. 711-717.