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Ż. A. Mierzejewska

). 8. Cruz F.: Selective Laser Sintering of Customised Medical Implants Using Biocomposite Matenals. Tehmcki vjesnik 10 (2) (2003), 23-27. 9. Das S.: Physical aspects of process control in selective laser sintering of metals. Advanced Engmeering Materials (2003), 5: 701-711.Childs T.H.C., Hauser C., Badrossamay M.: Selective laser sintering (melting) of stainless and tool steel powders: experiments and modeling, Proc. IMecliE part B, J. Engineering Manufacture 219 (2005), 339-357. 10. Dimov S., Pham D.T., et al.: Rapid tooling

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A. Kausar

REFERENCES 1. Partovi-Azar, P., Jand, S.P., Kaghazchi, P.: Electronic, Magnetic, and Transport Properties of Polyacrylonitrile-Based Carbon Nanofibers of Various Widths: Density-Functional Theory Calculations. Physical Review Applied 9 (2018) 014012. 2. Nataraj, S.K., Yang, K.S., Aminabhavi, T.M.: Polyacrylonitrile-based nanofibers—A state-of-the-art review. Progress in Polymer Science 37(2012) 487-513. 3. Bayramoğlu, G., Metin, A.Ü., Arıca, M.Y.: Surface modification of polyacrylonitrile film by anchoring conductive polyaniline and

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M. Landowski

Technology 2019, 1-12. 24. dos Santos Paes L. E., Pereira M., Weingaertner W. L., Scotti A., Souza T.: Comparison of methods to correlate input parameters with depth of penetration in LASER welding. The International Journal of Advanced Manufacturing Technology 2019, 1-13. 25. Razali N. M., Wah Y. B.: Power comparisons of Shapiro-Wilk, Kolmogorov-Smirnov, Lilliefors and Anderson-Darling tests. Journal of Statistical Modeling and Analytics 2011, 2(1), 21-33.

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Badorul Bakar, Ramadhansyah Jaya, Megat Johari and Mohd Ibrahim

. ASTM C204-07. Standard Test Methods for Fineness of Hydraulic Cement by Air-Permeability Apparatus. American Society for Testing and Materials. BS 882:1992. Specification for aggregates from natural sources for concrete. British Standards Institution. BS EN 12390-3:2002. Testing hardened concrete. Compressive strength of test specimens. British European Standards Specifications. RILEM. RILEM TC116-PCD (1999). Permeability of concrete as a criterion of its durability. Materials and

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M. Kmieć, B. Karpiński and M. Szkodo

., Corrosion in the Oil industry. Oilfield Review, 6 (1994). 11. ASTM. G32-10 Standard Test Method for Cavitation Erosion Using Vibratory Apparatus, 2010. 12. Ultrasonics H., UP200s/UP400S Instruction manual Ultrasonic processors for Laboratories. 13. Dugan G., The Versatile PAC Polymer. National Driller, 30(1) (2009), 60-72. 14. El-Lateef H.M., Abbasov V.M., Aliyeva L.I., Ismayilov T.A., Some surfactants based on the vegetable oils as CO2 corrosion Inhibitors for mild steel in oilfield formation water. International Journal of Corrosion Scale

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M. Szkodo, A. Stanisławska and P. Śliwiński

, production and operation of hydraulic systems (in Polish), „Cylinder” Library, Gliwice, 2010. 4. Balawender A., Śliwinski P., Developmental research of hydraulic satellite motors and satellite pump with small geometrical displacement supplied with water, emulsion and oil (in Polish), Gdansk University of Technology, 2010. 5. Balawender A., Physical and mathematical model of losses in hydraulic motors. Gdansk University of Technology, Gdansk, 2005. 6. Balawender A., Elgert K., Research on development of satellite hydraulic

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M. H. Buszko and A. K. Krella

References 1. Oka Y. I., Yoshida T.: Practical estimation of erosion damage caused by solid particle impact: Part 2: Mechanical properties of materials directly associated with erosion damage. Wear 259 (2005) 102-109. 2. Arora H. S., Grewal H. S., Singh H., Mukherjee S.: Zirconium based bulk metallic glass-Better resistance to slurry erosion compared to hydroturbine steel. Wear 307 (2013) 28-34. 3. Grewal H. S., Agrawal A., Singh H.: Design and development of high-velocity slurry erosion test rig using CFD

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A. Walczak, A. Niewczas, D. Pieniak, L. Gil, E. Kozłowski and P. Kordos

REFERENCES 1. Shalaby S.W., Salz U.: Polymers for dental and orthopedic applications. CRC Press, Boca Raton 2007. 2. Rodrigues Junior S.A., Ferracane J.L., Bona A.D.: Flexural strength and Weibull analysis of a microhybrid and a nanofill composite evaluated by 3- and 4-point bending tests. Dental Materials 24 (2008), 426-431. 3. Bechtold J., dos Santos P.J., Anido-Anido A., di Hipolito V., Alonso R.C.B., D’Alpino P.H.P.: Hardness, polymerization depth, and internal adaptation of Class II silorane composite restorations as a function of

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M. Bartmański and B. Świeczko-Żurek

References 1. Dorr L.D.: Alloplastic of hip joint. Elsevier Urban & Partner, Wroclaw 2006. 2. Płomiński J., Watral Z.: Testing the stability of the polyethylene acetabulum of an artificial hip joint [in Polish], Diagnostyka, 3 (2006). 3. Kowalczyk E., Sobczyk K.: Examination of time's influence on mechanical properties of polyethylene hip cup endoprosthesis [in Polish], Engineering of Biomaterials, 74 (2008), 11-15. 4. Li S.: Ultra high molecular weight polyethylene: from charney to cross linked

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H. Smoleńska

and Materials Transactions: A: Physical Metallurgy and Materials Science. Warrendale: Aug 1999. Vol. 30A, Iss. 8; pg. 2251, 4 pgs. Smith W. M., Surface Materials Processing. Second Edition, Backmann Verlag, Berlin-London-Paris-Warsaw, 2001. Zhao R; Barber G C; Wang Y S; Larson J E, Wear mechanism analysis of engine exhaust valve seats with a laboratory simulaton, Tribology Transactions; Apr 1997; 40, 2; ProQuest Science Journals, 209. Hidouci A., Pelletier J. M., Ducoin F., Dezert D., El