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Electrochemical Corrosion Characteristics of High Strength Low Alloy Domex 700 Steel After Mechanical Surface Treatment in Chloride Environment

. Neslušan, M.; Mičieta, B.; Mičietová, A.; Čiliková, M.; Mrkvica, I. Detection of tool breakage during hard turning through acoustic emission at low removal rates. Measurement 2015, 70, 1-13. 12. Mhaede, M.; Pastorek, F.; Hadzima, B. Influence of shot peening on corrosion properties of biocompatible magnesium alloy AZ31 coated by dicalcium phosphate dihydrate (DCPD). Materials Science and Engineering: C 2014, 39, 330-335. 13. Trško, L.; Guagliano, M.; Bokůvka, O.; Nový, F. Fatigue life of AW 7075 Aluminium Alloy after severe shote peening

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Comparison Analysis of Cockroft – Latham Criterion Values of Commercial Plasticine and C45 Steel

accumulation and ductile fracture modeling of notched specimens under biaxial loading at room temperature, International Journal of Solids and Structures , 134, 1-19. 14. Dziubinska A., Gontarz A., (2015), A new method for producing magnesium alloy twin-rib aircraft brackets, Aircraft Engineering and Aerospace Technology , 2(87), 180-188. 15. Eivani A. R., Jafarian H. R.,Mirghasemi S. M., Seyedein S. H. (2018), A comparison between routine vs. normalized Cockroft-Latham Fracture criteria for prediction of fracture during equal channel angular pressing

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Application of the 3D Digital Image Correlation to the Analysis of Deformation of Joints Welded With the FSW Method After Shot Peening

AM-Lite magnesium alloys. Welding International, 27 (4) (2011) 265-267. 7. Iwaszko, J., Kudła, K., Fila, K., Strzelecka, M.: The Effect of Friction Stir Processing (FSP) on the Microstructure and Properties of AM60 Magnesium Alloy. Archives of Metallurgy and Materials, 61(3) (2016) 1555-1560. 8. Emami S., Saeid T., Abdollah-zadeh A.: Effect of friction stir welding parameters on the microstructure and microtexture evolution of SAF 2205 stainless steel. Journal of Alloys and Compounds, 810 (2019) 1-7. 9. Kasai H., Morisada Y., H. Fujii.: Dissimilar

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Determination of Overall Heat Transfer Coefficient by Simple Thermal Analyze

Heat Transfer Coefficient at the Casting/Mold Interface for Permanent Mold Casting of AZ91D Magnesium Alloy Materials Transactions, Vol. 47, No. 10 (2006) pp. 2547 to 2554, The Japan Institute of Metals [12] Alloy Kuo J H, Hsu F L, Hwang W S, Yeh J L, Chen S J Effects of Mold Coating and Mold Material on the Heat Transfer Coefficient at the Casting / Mold Interface for Permanent Mold Casting of A356 Aluminum Transactions of American Foundry Society, Volume 109, Pp 1-17, 2001 [13] Pedram Mehraram, Measuring Heat Transfer during Twin Roll Casting of Metals

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Energy-Dispersive X-Ray Spectroscopy Mapping of Porous Coatings Obtained on Titanium by Plasma Electrolytic Oxidation in a Solution Containing Concentrated Phosphoric Acid with Copper Nitrate

.R. and Ryder, A. Review. Plasma Electrolytic Oxidation (PEO) for Production of Anodised Coatings on Lightweight Metal (Al, Mg, Ti) Alloys, Transactions of The Institute of Metal Finishing, 87 (2009), 122-135. 27. Curran J., Plasma Electrolytic Oxidation for Surface Protection of Aluminium, Magnesium and Titanium Alloys, Transactions of The Institute of Metal Finishing, 89 (2011), 295-297. 28. Hussein R.O., Northwood D.O., Nie X., Processing-Microstructure Relationships in the Plasma Electrolytic Oxidation (PEO) Coating of a Magnesium Alloy, Materials

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Porous Metallic Biomaterials Processing (Review) Part 1: Compaction, Sintering Behavior, Properties and Medical Applications

(6), (2012) 1452-1460. [68] V.K. Balla, S. Bose, N.M. Davis, A. Bandyapadhyay, Tantalum—A bioactive metal for implants, J. Miner. Met. Mater. Soc. 62 (7) (2005) 61. [69]. B.R. Levine, S. Sporer, et al., Experimental and clinical performanceof porous tantalum in orthopaedic surgery, Biomaterials 27 (2006) 4671-4681. [70] Xue-Nan GU, Yu-Feng ZHENG, A review on magnesium alloys as biodegradable materials, Front. Mater. Sci. China 4(2) (2010) 111–115. [71] Zibo Tang, Jialin Niu, Hua Huang, Hua Zhang, Jia Pei, Jingmin Ou, Guangyin Yuan

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Application of TRIZ Methodology in Diffusion Welding System Optimization

.G. Parteidge, “Microstructure of diffusion-bonded joints in Al-Li 8090 alloy”, Journal of Materials Science , vol. 26, pp. 3119-3124, 1991. [4] R.J. Golden Renjith Nimal, M. Siva Kumarand G. Esakkimuthu,“Studies on diffusion bonding of AA7075 aluminium alloy and AZ80 magnesium alloy”, International Journal of Advanced Engineering Technology , vol. 7, no. 2, pp. 1061-1062, 2016. [5] Z.D. Kadhim, A.I. Al-Azzawi and S.J. Al-Janabi, “Effect of the Diffusion Bonding Conditions on Joints Strength”, Journal of Engineering and Development , vol. 13, no. 1, pp. 179

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Comparison of the thermal stability of magnesium phosphate (newberyite) coating with conventional zinc phosphate (hopeite) coating

steel, Materials Letters 2004 , 58, 3316–3319. 11. Fouladi M, Amadeh A. Comparative study between novel magnesium phosphate and traditional zinc phosphate coatings, Materials Letters 2013 , 98, 1–4. 12. Fouladi M, Amadeh A. Effect of phosphating time and temperature on microstructure and corrosion behavior of magnesium phosphate coatings, Electrochimica Acta 2013 , 106, 1-12. 13. Ishizaki T, Shigematsu I, Saito N. Anticorrosive magnesium phosphate coating on AZ31 magnesium alloy, Surface and Coating Technology 2009 , 203, 2288

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Research on the Properties of Co-Tic and Ni-Tic Hip-Sintered Alloys

REFERENCES 1. Babak A., Barsoum M.W. (2016). Energy damping in magnesium alloy composites reinforced with TiC or Ti2AlC particles, Materials Science & Engineering , A 653, 53–62. 2. Babak A., Casi E.N., Barsoum M.W. (2014), Fabrication and mechanical properties of pressureless melt infiltrated magnesium alloy composites reinforced with TiC and Ti 2 AlC particles, Materials Science and Engineering , 618, 511–522. 3. Baskaran S., Anandakrishnan V, Muthukannan Duraisel Vam, Keerthivasan N . (2015) Study on dry sliding friction behaviour of

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Asymmetric rolling process

-1398. [15] Nilsson, A., Salvator, I., Putz, P.-D., Goldhahn, G., Malbrancke, J. (2012): Using asymmetrical rolling for increased production and improved material properties. European Union. [16] Inoue, H. (2012): Texture Control of Aluminium and Magnesium Alloys by the Symmetric/Asymmetric Combination Rolling Process. Materials Science Forum, 702-703, pp. 68-75. [17] Azbanbayev, E., Isagulov, A., Ashkeyev, Z. (2013): Mathematical simulation of the process of rolling in the back taper rolls. In: 22nd International Conference on Metallurgy

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