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O. Ovchar, D. Durylin, A. Belous, B. Jancar and Kolodiazhnyi

://dx.doi.org/10.1016/S0955-2219(03)00151-1 [13] AZOUGH F., LEACH C. and FREER R., J. Eur. Ceram. Soc. 26[14], (2006); 2877. http://dx.doi.org/10.1016/j.jeurceramsoc.2006.02.004 [14] KOLODIAZHNYI T, PETRIC A., BELOUS A., V’YUNOV O., and YANCHEVSKIJ O., J. Mater. Res., 17[12] (2002), 3182. http://dx.doi.org/10.1557/JMR.2002.0460 [15] ZHANG H., FANG L., WU B., State Key Lab of Adv. Tech. for Mater. Synth. and Processing, Wuhan Univ. of Tech (China), ICDD Grant-in-Aid, (1999

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Tünde Kovács, Zoltán Nyikes and Lucia Figuli

.: Kompozit gyártási jegyzőkönyv . AKOBEZ, Budapest, 2018. [11] Balázs Á.: Épületvédelem kompozit anyagokkal. MSc diplomaterv, OE-BGK, Budapest, 2018. [12] Figuli L., taffenová D.: Practical aspect of methods used for blast protection. Key Engineering Materials, 755. (2017) 139–146. https://doi.org/10.4028/www.scientific.net/KEM.755.139 [13] Figuli L., Magura M., Kavický V., Jangl.: Application of recyclable materials for an increase in building safety against the explosion of an improvised explosive device . Advanced Materials Research, 1001. (2014

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László Tóth, Ferenc Haraszti and Tünde Kovács

References [1] Haraszti F., Kovács T.: Plastic deformation effect of the corrosion resistance in case of austenitic stainless steel . IOP Conference Series: Materials Science and Engineering, 175. (2017). https://doi.org/10.1088/1757-899X/175/1/012048 [2] Tedmon Jr. C. S., Vermilyea D. A., Rosolowski J. H: Intergranular corrosion of austenitic stainless steel. Journal of the Electrochemical Society, 118/2. (1971) 192–202. https://doi.org/10.1149/1.2407966 [3] Bagyinszki Gy., Bitay, E.: Hegesztéstechnika II. Berendezések és mérések. EME

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Attila Zsolt Kenéz and Gyula Bagyinszki

References [1] Vincent C.: Apparatus and Method for Securing Diamond Segment to Rotating Tool. US 2005/0279533 A1, 2005. [2] Bagyinszki Gy., Bitay E.: Hegesztéstechnika I. Eljárások és gépesítés . EME, Cluj-Napoca, 2010. https://eda.eme.ro/handle/10598/15437 [3] Kovács T.: Laser welding process specification base on welding theories . Procedia Manufacturing, 22. (2018) 147–153. [4] Bitay E.: Lézeres felületkezelés és modellezés . EME, Cluj-Napoca, 2007. https://eda.eme.ro/handle/10598/8923 [5] Bagyinszki Gy., Bitay E.: Nagy

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János Dobránszky and Enikő Bitay

Press, Washing-ton, D.C., 2005. https://doi.org/10.17226/11268 [11] Ashbee K. H. G.: Fundamental principles of fiber reinforced composites. Second Edition. Techno-mic Publishing Company, Lancaster, 1993. [12] Tihanyi K: Fémmátrixú hibrid anyagok gyártása . Diplomamunka. BME Anyagtudomány és Technológia Tanszék, 2013. [13] Steinmann W., Saelhoff A. K.: Essential properties of fibres for composite applications. In: Fibrous and textile materials for composite applications. Textile Science and Clothing Technology (Szerk: Rana, S., Fangueiro, R

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Tamás Antal Varga and Tamás Mankovits

Science and Engineering A, 528. (2011) 4550–4555. https://doi.org/10.1016/j.msea.2011.02.031 [13] Jeon I., Asahina T., Kang K.-J., Im S., Lu T. J.: Finite element simulation of the plastic collapse of closed-cell aluminum foams with X-ray computed tomography . Mechanics of Materials, 42. (2010) 227–236. https://doi.org/10.1016/j.mechmat.2010.01.003 [14] Mankovits T., Varga T. A., Manó S., Kocsis I.: Compressive response determination of closed-cell aluminium foam and linear-elastic finite element simulation of μCT-based directly reconstructed geometrical

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Kónya János and Kulcsár Klaudia

.5023 [10] Fehér E., Gallatz K., Gerber G., Székely A. D.: Maxillofacialis anatómia . Medicina Könyvkiadó Zrt., Budapest, 2014. 79–9. [11] Ihde S. K. A., Ihde A. A.: Bevezetés a Stratégiai Implantátumok használatába . International Implant Foundation Publishing, München, 2016. [12] Marková K., Mitrushchenkov Y., Idhe S. K. A., Idhe A. A.: Stratégiai implantátumokon végzett technikai munkafázisok . International Implant Foundation Publishing, München, 2016. [13] Redwood B., Schöffer F., Garret B., The 3D Printing Handbook . 3D Hubs B

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Enikő Bitay, Irén Kacsó and Erzsébet Veress

://www.nrc.gov/docs/ML0322/ML032230109.pdf [4] Ceylan G., Köprülü H., Kurt M., Basoglu T., Güler A. U., Yapici O.: Uranium in dental porcelain . Atatürk Üniversitesi Dis Hekimigli Fakultesi Dergisi, 13/3 14/1. (2003-2004) 18–22. http://dergipark.gov.tr/download/article-file/27627 [5] Trietley H. L.: Electrochemical transducers . In Transducers in mechanical and electronic design. CRC Press Marcel Dekker, 1986. 162–175. [6] Pradel A., Saint Aman E.: Potentiometric sensors (Ions and dissolved gases) . In: Chemical and biological microsensors. Applications in liquid

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Anna Maloveczky and Ambrus Karai

References [1] Bagyinszki Gy., Bitay E.: Hegesztéstechnika I. Eljárások és gépesítés . EME, Cluj-Napoca, 2010. https://eda.eme.ro/handle/10598/15437 [2] Bitay E.: Lézeres felületkezelés és modellezés. EME, Cluj-Napoca, 2007. https://eda.eme.ro/handle/10598/8923 [3] Búza G.: Lézersugaras technológiák I . Edutus Főiskola, Budapest, 2012. 10. [4] Kyung-Min H., Yung C. S.: Prospects of laser welding technology in the automotive industry: A review. Journal of Materials Processing Technology, 245. (2017) 52–54. https://doi.org/10.1016/j