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M. Suliga

References [1] O. Pawelski, H. Vollmer, Thermische Sim­ulation des Einflusses der Ziehgeschwindigkeit auf die mechanischen Eigenschaften gezogener Stahldrähte, Arch. Eisenhuttenw 47 , 1, 9-13 (1976). [2] M. Suliga, The influence of the high drawing speed on mechanical-technological properties of high carbon steel wires, Archieves of Metallurgy and Materials, Quarterly 56 , 3, Warszawa-Kraków, 823-828 (2011). [3] M. Suliga, The influence of drawing speed on multi-pass drawing process of high carbon

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M. Suliga

References [1] M. Suliga, The influence of the high drawing speed on mechanical-technological properties of high carbon steel wires, Archieves of Metallurgy and Materials, Quarterly 56 , 3, Warszawa-Kraków, 823-828 (2011). [2] M. Suliga, The influence of the multipass drawing process in classical and hydrodynamic dies on residual stresses of high carbon steel wires, Archieves of Metal­lurgy and Materials Quarterly 56 , 4, Warszawa-Kraków, 939-944 (2011). [3] J. Łuksza, A. Skołyszewski, F. Witek, W

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J. Piwnik and K. Mogielnicki

Manufacturing Technology, 125-129 (2007). [11] E. Vidal- Sallé, S. Maisonnette-Masson, J.C. Boyer, About the validity of the plastic wave model for an actual roughness of axisymmetric tooling in bulk forming, International Journal of Material Forming 2, 217-220 (2009). [12] J. Piwnik, K. Mogielnicki, M. Gabrylewski, P. Baranowski, The experimental tool for microextrusion of metals, Archives of Foundry Engineering, 195-198 (2011).

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V. Šefl

.; Karjalainen-Roikonen, P.; Arilahti, E.; Moilanen, P. Low cycle behaivor of 316 NG alloy in PWR environment. 2004. 26. Gangloff, R. P.; Ives, M. B. Environment Induced Cracking of Metals.1990. 27. Chopra, O.; Shack, W. J. Review of the Margins for ASME Code Fatigue Design Curve - Effects of Surface Roughness and Material Variability; 2003. 28. Higuchi, M.; Iida, K. Nuclear Engineering and Design 1991, 129, 293-306. 29. Katada, Y.; Nagata, N.; Sato, S. ISIJ Intl. 1993, 31, 877-883. 30. Nakao, G

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R. Skonieczny, P. Popielarski, W. Bała, K. Fabisiak, K. Paprocki, M. Jancelewicz, M. Kowalska and M. Szybowicz

approximately 3 times higher than for the spectrum recorded at cross polarization (VH). In order to determine and assess the distribution of inclination angle of molecules surface, Raman mapping measurements were performed before and after the annealing process. The procedure was conducted at temperature 473 K for 6 hours in air condition. Each map ( Fig. 2 ) covers an area of 20 μm 2 × 20 μm 2 , and consists of 121 point measurements (done every 2 μm). Using numerical procedure, each spectrum was fitted to the theoretical Lorentz curve (using Wire 3.0 inVia software) to

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L. Remache, T. Nychyporuk, N. Guermit, E. Fourmond, A. Mahdjoub and M. Lemiti

. 2 Experimental The experiments were carried out on CZ (100) p-type silicon substrates with a resistivity of 0.01 to 0.02 Ω·cm and a thickness of 250 to 300 µm. Alternatively, surface doping of standard solar cell wafers of 1 to 10 Ω·cm could be used for the same purpose. Porous silicon (PS) was grown on the front polished side in a mixture containing HF (48 %) and C 2 H 5 OH (volumetric ratio equal to 1). The electrochemical cell was made from Teflon and had a circular aperture with a diameter of 1.5 cm, on which the silicon wafer was sealed. A platinum wire

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Grobelny Pawel, Legutko Stanislaw and Lukasz Furmanski

. [3] Krolczyk G. M., Legutko S., Analysis by measurement of surface roughness variations in turning process of duplex stainless steel, Metrology and Measurement Systems 21 (4) (2014) 759-770. [4] Nieslony P., Krolczyk G. M., Wojciechowski S., Chudy R., Zak K., Maruda R. W.,Surface quality and topographic inspection of variable compliance part after precise turning, Applied Surface Science 435 (2018) 91-101. [5] Ciurana J., Hernandez L., Delgado J.,Energy density analysis on single tracks formed by selective laser melting with CoCrMo