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Increasing of the Mechanical Properties of Friction Stir Welded Joints of 6061 Aluminum Alloy by Introducing Alumina Particles

dissimilar AZ31B magnesium alloy and SS400 mild steel by hybrid gas tungsten arc friction stir welding’, Met. Mater. Int., 19 (2013) 1251-1257. 22. Shi L., Wu C.S., Liu X.C.: Modeling the effects of ultrasonic vibration on friction stir welding. Journal of Materials Processing Technology 222 (2015) 91-102. 23. Wais M. H., Salman J. M., Al-Roubaiy, A. O.: Effect Of friction stir processing on mechanical properties and microstructure of the cast pure aluminum. International J. of Scientific & Technology Research 2 (2013) 154

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The Determinants of Morphology and Properties of the Nanohydroxyapatite Coating Deposited on the Ti13Zr13Nb Alloy by Electrophoretic Technique

Modifications and Their Effects on Titanium Dental Implants, BioMed Research International (2015). 30. Jurczyk M., Jakubowicz J.: Biomaterials, The Publishing House of Technical University of Poznan, Poznan 2008. 31. Zhou H., Lee J.: Nanoscale hydroxyapatite particles for bone tissue engineering, Acta Biomaterialia 7 (2011), 2769–2781. 32. Rojaee R., Fathi M., Raeissi K.: Electrophoretic deposition of nanostructured hydroxyapatite coating on AZ91 magnesium alloy implants with different surface treatments, Applied Surface Science 285 P (2013), 664

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Use of MgO to Promote the Oxyethylation Reaction of Lauryl Alcohol

-modified metal hydroxides on linear low density polyethylene, J. Cent. South Univ. Technol. 15, 779–785. DOI: 10.1007/s11771-008-0144-2. 4. Khor, S.F., Talib, Z.A., Daud, W.M., Sidek, H.A.A. & Ng, B.H. (2009). Effects of MgO on dielectric properties and electrical conductivity of ternary zinc magnesium phosphate glasses, J. Non-Cryst. Solids 355, 2533–2539. DOI: 10.1016/j. jnoncrysol.2009.09.010. 5. Lei, T., Ouyang, C., Tang, W., Li, L.F. & Zhou, L.S. (2010). Preparation of MgO coatings on magnesium alloys for corrosion protection, Surface Coat. Technol. 204, 3798

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Sensitive Analysis on Selection of Piston Material Using MADM Techniques

Research 184, pp. 255 – 265, 2008 . [21] Sameer Kumar, D., Suman K. N. S. “Selection of Magnesium Alloy by MADM Methods for Automobile Wheels”, IJEM 4 (2), pp. 31 – 41, 2014 . DOI: 10.5815/ijem.2014.02.03 [22] Parnell, G., Trainor, T. “2.3.1 Using the Swing Weight Matrix to Weight Multiple Objectives”, INCOSE International Symposium 19, pp. 283 – 298, 2009 . DOI: 10.1002/j.2334-5837.2009.tb00949.x [23] Li, X., Wang, K., Liu, L., Xin, J., Yang, H., Gao, Ch., “Application of the Entropy Weight and TOPSIS Method in Safety Evaluation of Coal Mines

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Optimization of Hydroxyapatite Synthesis and Microplasma Spraying of Porous Coatings Onto Titanium Implants

mashin. Sbornik trudov posvyashchennyy vypolneniyu kompleksnoy programmy. Kiev (2009) 542–547. 37. Voinarovych S.G.: Vliyaniye parametrov mikroplazmennogo napyleniya na koeffitsiyent ispolzovaniya materiala pri napylenii biokeramicheskogo pokrytiya. Obrobka Materіalіv u Mashinobuduvanni (2010) 58-61. 38. Thirumalaikumarasamya D., Shanmugama K., Balasubramanian V.: Influences of atmospheric plasma spraying parameters on the porosity level of alumina coating on AZ31B magnesium alloy using response surface methodology. Progress in Natural Science: Materials

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Grey-WPCA Based Parametric-Optimization and Modelling of Chromium Powder Mixed Surface-Electro Discharge Diamond Grinding of Inconel 600 Using RSM

. DOI: 10.1080/10426914.2016.1198018 [25] Razak, M. A., Rani, A.M.A., Saad, N. M., Littlefair, G., Aliyu, A. A., “Controlling corrosion rate of Magnesium alloy using powder mixed electrical discharge machining”, IOP Conf. Series: Materials Science and Engineering 344, pp. 1 – 10, 2018 . DOI: 10.1088/1757-899X/344/1/012010 [26] Modi, M., Agarwal, G. “Effect of aluminium and chromium powder mixed dielectric fluid on electrical discharge machining effectiveness”, Advances in Production Engineering & Management Journal 14 (3), pp. 323 – 332, 2019 . DOI: 10

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Study of the Mechanical Behaviour of a Clayey Soil Under Normal and Frozen Conditions

. 28, No. 6, pp. 1-6. https://doi.org/10.1061/(ASCE)MT.1943-5533.0001509 Tilak, B. V. - Dutta, R. K. – Mohanty, B. (2015) Effect of coir fibers on the compaction and unconfined compressive strength of Bentonite-lime-gypsum mixture. Slovak Journal of Civil Engineering, Vol. 23, No. 2, pp. 1-8. https://doi.org/10.1515/sjce-2015-0006 Viswanathan, R. – Ramesh, S. – Elango, N. – Kamesh, K. D. (2017) Temperature measurement and optimisation in machining magnesium alloy using RSM and ANOVA. Pertanika J. Sci. & Technol., Vol. 25, No. 1, pp. 255 – 262

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Potencial management of waste phosphogypsum with particular focus on recovery of rare earth metals

. (2012). Effect of yttrium, calcium and zirconium on ignition-proof principle and mechanical properties of magnesium alloys, J. Rare Earths, 30(1), 74-78. DOI: 10.1016/S1002-0721(10)60642-4. 15. Mineral Commodity Summaries 2012, U.S. Geological Survey, January 2012, p. 128-129, Retrieved March 28, 2012, from http://minerals.usgs.gov/minerals/pubs/mcs/2012/mcs2012.pdf 16. Runowski, M., Grzyb, T. & Lis, S. (2011). Bifunctional luminescent and magnetic core/shell type nanostructures Fe3O4@CeF3:Tbe3+/SiO2. J. Rare Earths, 29(12), 1117

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SEM and EDS Characterization of Porous Coatings Obtained On Titaniumby Plasma Electrolytic Oxidation in Electrolyte Containing Concentrated Phosphoric Acid with Zinc Nitrate

, Surface and Coatings Technology, 276 (2015), 516-520. 32. Rokosz K., Hryniewicz T., Simon F., Rzadkiewicz S., Comparative XPS analyses of passive layers composition formed on duplex 2205 SS after standard and high-current-density electropolishing, Tehničkivjesnik - Technical Gazette, 23(3) (2016), 731-735. 33. Gnedenkov S.V., Sharkeev Y.P., Sinebryukhov S.L., Khrisanfova O.A., Legostaeva E.V., Zavidnaya A.G., Puz’ A.V., Khlusov I.A., Opra D.P., Functional coatings formed on the titanium and magnesium alloys as implant materials by plasma

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Poly(3-hydroxybutyrate): Promising biomaterial for bone tissue engineering

, crystalline and amorphous magnesium alloys: Promising candidates for bioresorbable osteosynthesis implants? Mater. Sci. Eng. C 32 (2012) 1503−1510; https://doi.org/10.1016/j.msec.2012.04.032

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