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D. Palanisamy and P. Senthil

. Zargaran. High temperature tensile behavior of a PH stainless steel. Materials Science and Engineering: A , 527(18):4727–4732, 2010. Aghaie-Khafri M. Zargaran A. High temperature tensile behavior of a PH stainless steel Materials Science and Engineering: A 527 18 4727 4732 2010 [12] B. Fnides and M.A. Yallese. Cutting forces and surface roughness in hard turning of hot work steel X38CrMoV5-1 using mixed ceramic. Mechanics , 70(2):73–78, 2016. Fnides B. Yallese M.A. Cutting forces and surface roughness in hard turning of hot

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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

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Md. Shahjada Tarafder and M. Al Mursaline

Advisory Committee for Aeronautics. [19] Coles D. and Wadcock (1979): Flying-Hot-Wire Study of Flow Past an NACA 4412 Airfoil at Maximum Lift. – AIAA Journal, vol.17, No.4, pp.321-329. [20] Kermeen R.W. (1956): Water Tunnel Tests of NACA 4412 and WALCHNER PROFILE 7 Hydrofoils in Noncavitating and Cavitating flows. – California Institute of Technology, Hydrodynamics Laboratory, Report No. 47-5. [21] Gregory N. and O’Reilly C.L. (1970): Low Speed Aerodynamic Characteristics of NACA 0012 Airfoil Section, Including the Effects of Upper Surface

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Q. Liang, W. Wu, D. Zhang, B. Wei, W. Sun, Y. Wang and Y. Ge

References [1] Thomas, T.R. (1998). Trends in surface roughness. International Journal of Machine Tools and Manufacture, 38 (5), 405-411. [2] Liang, Q., Zhang, D., Coppola, D., Wang, Y., Sun, W., Ge, Y. (2014). Multi-dimensional MEMS/micro sensor for force and moment sensing: A review. IEEE Sensors Journal, 14 (8), 2643-2657. [3] Beyeler, F., Muntwyler, S., Nelson, B.J. (2009). A sixaxis MEMS force-torque sensor with micro-Newton and nano-Newtonmeter resolution. IEEE Journal of Microelectromechanical Systems, 18

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G.C.M. Patel, P. Krishna, P.R. Vundavilli and M.B. Parappagoudar

References [1] Kuang-Oscar, Yu. (2001). Modeling for casting and solidification processing. CRC Press. [2] Vijian, P., Arunachalam, V.P. & Charles, S. (2007). Study of surface roughness in squeeze casting LM6 aluminium alloy using Taguchi method. Indian Journal of Engineering & Materials Sciences. 14, 7-11. [3] Ghomashchi, M.R. & Vikhrov, A. (2000). Squeeze casting: an overview, Journal of Materials Processing Technology. 101(1), 1-9. [4] Yue, T.M. & Chadwick, G.A. (1996). Squeeze casting of light alloys and their composites

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Wojciech Kapłonek, Krzysztof Nadolny and Grzegorz M. Królczyk

, 22-31. [4] Yan, L., Rong, Y.M., Jiang, F., Zhou, Z.X. (2011). Three- dimension surface characterization of grinding wheel using white light interferometer. International Journal of Advanced Manufacturing Technology, 55 (1-4), 133-141. [5] Rhoney, B.K., Shih, A.J., Scattergood, R.O., Ott, R., McSpadden, S.B. (2002). Wear mechanism of metal bond diamond wheels trued by wire electrical discharge machining. Wear, 252 (7), 644-653. [6] Qian, J., Li, W., Ohmori, H. (2000). Precision internal grinding with a metal

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Orazio Muscato and Vincenza Di Stefano

. 12. P. Ellinghaus, J. Weinbub, M. Nedjalkov, and S. Selberherr, Analysis of lense-governed Wigner signed particle quantum dynamics, Physica Status Solidi RRL, vol. 11, no. 7, p. 1700102, 2017. 13. M. Nedjalkov, P. Ellinghaus, J. Weinbub, T. Sadi, A. Asenov, I. Dimov, and S. Selberherr, Stochastic analysis of surface roughness models in quantum wires, Computer Physics Communications, vol. 228, pp. 30-37, 2018. 14. M. Nedjalkov, H. Kosina, S. Selberherr, C. Ringhofer, and D. K. Ferry, Unified particle approach to Wigner

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Orazio Muscato and Tina Castiglione

nanowires, IEEE Trans. Nanotech. , vol. 6, no. 1, pp. 113–117, 2007. 5. E. Ramayya, D. Vasileska, S. Goodnick, and I. Knezevic, Electron transport in silicon nanowires: The role of acoustic phonon confinement and surface roughness scattering, J. Appl. Phys. , vol. 104, p. 063711, 2008. 6. E. Ramayya and I. Knezevic, Self-consistent Poisson-Schrödinger-Monte Carlo solver: electron mobility in silicon nanowires, J. Comput. Electr. , vol. 9, pp. 206–210, 2010. 7. O. Muscato, W. Wagner, and V. Di Stefano, Numerical study of the systematic error in Monte

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N. Stamenov, G. Tomov, Z. Denkova and I. Dobrev

vitro analysis of mutans streptococci adhesion on esthetic, nickel-titanium, and stainless-steel arch wires. - Angle Orthod 84, 2014, № 4, 680-686. 10. Leonard, A., G. B. Gerber et P. Jacquet. Carcinogenicity, mutagenicity and teratogenicity of nickel. - Mutat Res, 87, 1981, № 1, 1-15. 11. Li, J., H. Katsuhiko, G. Takaharu, Y. Hiromichi, M. Yoichiro et I. Tetsuo. Biofi lm formation of Candida albicans on implant overdenture materials and its removal. - J Dent, 40, 2012, № 8, 686-692. 12. Lie, T. Morphologic Studies on

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Adam Ruszaj, Sebastian Skoczypiec and Dominik Wyszyński

P.M., Modelling of material removal rate in electric discharge grinding process , International Journal of Machine Tools & Manufacture, 74, 65–73, 2013. [22] Shrivastava P.K, Dubey A.K., Experimental modeling and optimization of electric discharge diamond face grinding of metal matrix composite , International Journal of Advanced Manufacturing Technology, 69, 2471–2480, 2013. [23] Menesis I., Koshy P., Assessment of abrasion assisted material removal in wire EDM , CIRP Annals – Manufacturing Technology, 57, 195–198, 2008. [24] Koshy P., Jain G