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Jozef Petrík and Pavol Palfy

-520. ISO 10 012:2003 Measurement management systems - Requirements for measurement processes and measuring equipment. STN EN ISO 6507-2:2005 Metallic materials. Vickers hardness test. Part 2: Verification and calibration of testing machines. STN EN ISO 6507-1:2005 Metallic materials. Vickers hardness test. Part 1: Test method. Adamczak, S. et al. (2011). Statistical validation of the method for measuring radius variations on the machine tool. Metrology and Measurement Systems , 18(1), 35

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Maciej Malicki, Elżbieta Gadalińska and Maciej Chmiel

REFERENCES [1] Malicki, M. & Madejski, B. (2015). The Impact of Damage in Inconel 718 on Hardness Measured by the Vickers Method. Fatigue of Aircraft Structures , 2015(7), pp. 69-79. Retrieved from doi:10.1515/fas-2015-0012. [2] Lemaitre, J. (1996). A Course on Damage Mechanics . Springer-Verlag Berlin Heidelberg. [3] Lemaitre, J. & Desmorat, R. (2005). Engineering Damage Mechanics . Springer-Verlag Berlin Heidelberg. [4] Mkaddem, A., Bahloul, R., Dal Santo, P. & Potiron, A. (2006). Experimental characterisation in sheet forming

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J. Petrík

.J. Ren, R.M. Hooper, C. Griffiths, J. Mater. Sci. Lett. 22 , 1105 (2003). [8] V. Navrátil, J. Novotná, Journal of Applied Mathematics. 2 , 241 (2009). [9] STN EN ISO 6507-1:2005 Metallic materials. Vickers hardness test. Part 1: Test method. [10] STN EN ISO 6507-2:2005 Metallic materials. Vickers hardness test. Part 2: Verification and calibration of testing machines. [11] J. Petrík, P. Palfy, Mapan-J. Metrol. Soc. I. 29 , 43 (2014). [12] J. Petrík, in: Strojírenská technologie, Západočeská univerzita v Plzni 43, Plzeň (2013). [13

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R. Dabrowski, E. Rozniata and R. Dziurka

References [1] A.K. Sinha, Physical Metallurgy Handbook, The Mc Growth - Hill Companies Inc. 2003. [2] M. Blicharski, Inzynieria materiałowa. Stal, WNT, Warszawa 2004. [3] S. Wilmes, H.J. Becker, R. Krumpholz, W. Verderber, Tool Steels. Steel, A Handbook for Materials Researched and Engineering, Springer-Verlag-Stahleisen mb H 2, 302 (1993). [4] R. Dabrowski, R. Dziurka, Tempering temperature effects on hardness and impact toughness of 56Ni Cr Mo7 steel, Archives of Metallurgy and

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Maciej Malicki and Bartosz Madejski

Hardness of Materials”. [8] A. Mkaddem, R. Bahloul, P. Dal Santo, A. Potiron “Experimental characterisation in sheet forming processes by using Vickers micro-hardness technique”, Journal of Materials Processing Technology 180 (2006) 1–8. [9] G. R. Johnson, W. H. Cook (1985). Fracture Characteristics of Three Metals Subjected to Various Strains, Strain Rates, Temperatures And Pressures, Engineering Fracture Mechanics Vol. 21, No. I, pp. 3148. 1985. [10] Jean Lemaitre Rodrigue Desmorat „Engineering Damage Mechanics”, Springer-Verlag Berlin Heidelberg

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Dominika Panfil, Piotr Wach, Michał Kulka and Jerzy Michalski

Materials Engineering and Performance, 2016, vol. 25, s. 3-8. [6] Chen J.S., Yu C., Lu H., Phase stability, magnetism, elastic properties and hardness of binary iron nitrides from first principles, Journal of Alloys and Compounds, 2015, vol. 625, s. 224-230. [7] Taktak S., Gunes I., Effect of pulse plasma nitriding on tribological properties of AISI 52100 and 440C steels, Journal Surface science and Enigineering, 2014, vol. 8, no. 1, s 39-56. [8] Carpene E., Schaaf P., Laser nitriding of iron and aluminum, Applied Surface

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J. Pezda

. Materials & Design, 41, 358-369. DOI:10.1016/j.matdes.2012.04.034. [13] Ibrahim M. F. (2011). Metallurgical parameters controlling the microstructure and hardness of Al-Si-Cu-Mg base alloys. Materials and Design, 32(4), 2130-2142.DOI:10.1016/j.matdes.2010.11.040. [14] Dobrzański, L. A., Krupiński, M. & Sokolowski, J. H. (2006) Use of artificial intelligence methods to classification of defects in castings from Al-Si-Cu alloys. Archives of Foundry, 6(22), 598-605. [15] Carrera, E. et al. (2007). Measurement of residual

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Stefan Berczyński, Daniel Grochała and Zenon Grządziel

REFERENCES Haimann, R. (1974). Metaloznawstwo. Wrocław: Politechnika Wrocławska. IPNT. Twardość metali. [online] Available at: https://www.am.szczecin.pl/userfiles/File/laboratoria/wm/IPNT/Twardosc_metali.pdf [Accessed 10 Apr. 2018]. Karakasidis, T.E., Georgiou, D.N. and Nieto, J.J. (2012). Fuzzy regression analysis: An application on tensile strength of materials and hardness scales. Journal of Intelligent & Fuzzy Systems, 23(5), pp. 177-186. Konowalski, K. (2005). Pomiary twardości metali. [online] Available at: http

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Dong Sun, Qichang Mei, Julien S Baker, Xuewen Jia and Yaodong Gu

., 2012 ). High correlations have been found between cushioning perception and biomechanical variables in shoes of different sole hardness ( Hennig, 2011 ). Sole hardness can influence runners’ functional characteristics, subsequently altering loading patterns and foot motion. Variations in the hardness of the shoe sole may therefore influence both kinematics of lower limbs and the magnitude of loading under the foot. Kinematics and kinetics are highly associated with non-contact injuries of lower extremities, player’s comfort and performance. It is generally assumed

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R. Dąbrowski and R. Dziurka

References R. Dąbrowski, J. Pacyna, J. Krawczyk, New high hardness Mn-Cr-Mo-V tool steel, Archives of Metallurgy and Materials 52 1, 87-92 (2007). R. W. K. Honeycombe, H. K. D. H. Bhadeshia, Steels. Microstructure and properties, 2nd ed., London, 1995. A. K. Sinha, Physical Metallurgy Handbook, The Mc Graw-Hill Companies, Inc. 2003. M. Blicharski, Inżynieria Materiałowa. Stal, WNT, Warszawa, 2004. Steel - A Handbook for Materials