Geodesic
Investigation of the effect of diamond nanoparticles on the structure and mechanical behavior of Mg-Ca-Zn alloy
Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 79 (2022), pp. 152-161 Cet article a éte moissonné depuis la source Math-Net.Ru

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In this paper, the study of the effect of diamond nanoparticles on the structure and mechanical properties of the Mg-Ca-Zn magnesium alloy. The influence of diamond nanoparticles concentration amount of 0.1 wt. % in the structure of alloy Mg-Ca-Zn, the ultimate tensile strength increases from 294 up to 332 MPa, the elongation value increases from 22 % up to 27 % and the yield strength increases from 66 up to 75 MPa in the tested samples. Nanoparticles in magnesium alloy do not change the hardness of the alloy. The introduction of diamond nanoparticles into the magnesium alloy increased the Zn concentration from 4 % to 4.7 % and the Ca concentration from 1 % to 1.3 %. It is found that the introduction of the nanodiamond particles into a magnesium melt contributes to a decrease in the average grain size from $\sim$ 100 to 64 pm in the obtained castings and, as a result, to an increase in the mechanical properties.
Keywords: magnesium, nanosized particles, diamond, mechanics properties.
Mots-clés : structure 
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     author = {M. A. Selikhovkin and A. A. Akhmadieva and I. A. Zhukov and E. S. Marchenko and A. P. Khrustalev},
     title = {Investigation of the effect of diamond nanoparticles on the structure and mechanical behavior of {Mg-Ca-Zn} alloy},
     journal = {Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika},
     pages = {152--161},
     year = {2022},
     number = {79},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VTGU_2022_79_a12/}
}
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M. A. Selikhovkin; A. A. Akhmadieva; I. A. Zhukov; E. S. Marchenko; A. P. Khrustalev. Investigation of the effect of diamond nanoparticles on the structure and mechanical behavior of Mg-Ca-Zn alloy. Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 79 (2022), pp. 152-161. http://geodesic.mathdoc.fr/item/VTGU_2022_79_a12/

[1] Hedayati R., Ahmadi S.M., Lietaert K., Tumer N., Li Y., Amin Yavari S., Zadpoor A.A., “Fatigue and quasi-static mechanical behavior of bio-degradable porous biomaterials based on magnesium alloys”, Journal of Biomedical Materials Research: A, 106:7 (2018), 1798–1811 | DOI

[2] Sanz-Herrera J.A., Reina-Romo E., Boccaccini A.R., “In silico design of magnesium implants: macroscopic modeling”, Journal of the Mechanical Behavior of Biomedical Materials, 79 (2018), 181–188 | DOI

[3] Chino Y., Kobata M., Iwasaki H., Mabuchi M., “Tensile Properties from Room Temperature to 673 K of Mg-0.9 mass% Ca Alloy”, Materials Transactions, 43:10 (2002), 2643–2646 | DOI

[4] Meyer G., Caneiro A., Corso H., Ponce V., Azcona A., El Centro Atómico Bariloche y la Tecnología del Hidrógeno, Centro atomico de Bariloche, 2004

[5] Lu L., Lai M.O., Mechanical Alloying, Kluwer Academic Publishers, Boston, 1998

[6] Cha P.R., Han H.S., Yang G.F., Kim Y.C., Hong K.H., Lee S.C., Jung J.Y., Ahn J.P., Kim Y.Y., Cho S.Y., Byun J.Y., Lee K.S., Jung S.J., Seo H.K., “Biodegradability engineering of biodegradable Mg alloys: Tailoring the electrochemical properties and microstructure of constituent phases”, Scientific Reports, 3:28 (2013), 2367–2375 | DOI

[7] Luo A., Pekguleryuz M.O., “Cast magnesium alloys for elevated temperature applications”, Journal of Materials Science, 29:20 (1994), 5259–5271 | DOI

[8] Peng T., Xuanyong L., “Surface modification of biodegradable magnesium and its alloys for biomedical applications”, Regenerative Biomaterials, 2 (2015), 135–151 | DOI

[9] Kakhidze N.I., Khrustalev A.P., Vorozhtsov A.B., “Fiziko-mekhanicheskie svoistva dispersno uprochnennykh splavov sistemy alyuminii-magnii”, Novye materialy i perspektivnye tekhnologii, sb. materialov Pyatogo mezhdistsiplinarnogo nauchnogo foruma s mezhdunar. uchastiem, Intellektualnye sistemy, M., 2019, 630–631

[10] Zhang Q., Mochalin V., Neitzel I., Knoke I., Han J., Klug C., Zhou J.G., Lelkes P., Gogotsi Y., “Fluorescent PLLA-nanodiamond composites for bone tissue engineering”, Biomaterials, 32:1 (2011), 87–94 | DOI

[11] Krasnoveikin V.A., Skripnyak V.A., Kozulin A.A., “Chislennoe modelirovanie protsessov intensivnoi plasticheskoi deformatsii tel pri dinamicheskom kanalnom pressovanii”, Izvestiya vuzov. Fizika, 55:9-3 (2012), 67–71

[12] Vorozhtsov S., Minkov L., Dammer V., Khrustalyov A., Zhukov I., Promakhov V., Khmeleva M., “Ex situ introduction and distribution of nonmetallic particles in aluminum melt: Modeling and experiment”, JOM, 69 (2017), 2653–2657 | DOI

[13] Mehranpour M., Heydarinia A., Emamy M., Mirzadeh H., Koushki A., Razi R., “Enhanced mechanical properties of AZ91 magnesium alloy by inoculation and hot deformation”, Materials Science and Engineering: A, 802 (2021), 140667-1–140667-8 | DOI

[14] Khrustalyov A.P., Garkushin G.V., Zhukov I.A., Razorenov S.V., Vorozhtsov A.B., “QuasiStatic and Plate Impact Loading of Cast Magnesium Alloy ML5 Reinforced with Aluminum Nitride Nanoparticles”, Metals, 9:6 (2019), 715 | DOI

[15] Promakhov V.V., Khmeleva M.G., Zhukov I.A., Platov V.V., Khrustalyov A.P., Vorozhtsov A.B., “Influence of Vibration Treatment and Modification of A356 Aluminum Alloy on Its Structure and Mechanical Properties”, Metals, 9:1 (2019), 87 | DOI