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21-06-2024

Investigation of the influence of vibration on the processes of porous magnesium products formation

Authors: A. I. Kovtunov, Yu. Yu. Khokhlov, P. N. Selyanin

Published in: Metallurgist | Issue 1/2024

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Abstract

Magnesium foam is a promising material in industry and medicine due to its low density, high damping properties, ability to absorb acoustic and electromagnetic vibrations, and biocompatibility with the human body. The methods developed for producing products from porous magnesium by filtering the liquid melt through soluble granules ensure the production of porous magnesium with a pore size of at least 4 mm. To reduce the pore size by increasing the fluidity and fillability of the granular filling during the production of porous magnesium, vibration treatment of the melt during pouring has been proposed. The conducted studies have shown that vibration treatment allows increasing the fluidity of the Mg90 magnesium melt. In addition, a refinement of the magnesium structure and an increase in hardness are observed. Vibration treatment during the pouring and forming of porous magnesium contributes to an increase in the depth of impregnation of the granular filling and creates conditions for producing products from porous magnesium with a pore size of up to 2 mm, a density of 0.55–0.75 g/cm3, and a porosity of 57–68%.

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Literature
1.
go back to reference Leushin IO, Grachev AN, Nazarov VN, Gorokhov PA (2020) Aluminium foam—a promising material for the production of cast products for critical purposes. Teor Tekhnol Metall Proizv 4(35):35–38 Leushin IO, Grachev AN, Nazarov VN, Gorokhov PA (2020) Aluminium foam—a promising material for the production of cast products for critical purposes. Teor Tekhnol Metall Proizv 4(35):35–38
2.
go back to reference Voronin SV, Loboda PS (2016) Methods for producing porous materials based on aluminium. Izv Samar Nauch Tsentr Ran 18(6):1068–1074 Voronin SV, Loboda PS (2016) Methods for producing porous materials based on aluminium. Izv Samar Nauch Tsentr Ran 18(6):1068–1074
3.
go back to reference Singh G, Pandey PM (2019) Uniform and graded copper open cell ordered foams fabricated by rapid manufacturing: surface morphology, mechanical properties and energy absorption capacity. Mater Sci Eng A 761:192–205CrossRef Singh G, Pandey PM (2019) Uniform and graded copper open cell ordered foams fabricated by rapid manufacturing: surface morphology, mechanical properties and energy absorption capacity. Mater Sci Eng A 761:192–205CrossRef
4.
go back to reference Lapin IV, Kuznetsov VG, Aminova GA (2017) New modifications of metals in modern production. Izv Kgasu 3(41):188–195 Lapin IV, Kuznetsov VG, Aminova GA (2017) New modifications of metals in modern production. Izv Kgasu 3(41):188–195
5.
go back to reference Butarovich DO, Smirnov AA, Ryabov DM (2011) Aluminium foam as energy absorbing material and its mechanical properties. Izv Vuz Mashinostr 7:53–58 Butarovich DO, Smirnov AA, Ryabov DM (2011) Aluminium foam as energy absorbing material and its mechanical properties. Izv Vuz Mashinostr 7:53–58
6.
go back to reference Mahbod M, Asgari M (2019) Elastic and plastic characterization of a new developed additively manufactured functionally graded porous lattice structure: analytical and numerical models. Int J Mech Sci 155:248–266CrossRef Mahbod M, Asgari M (2019) Elastic and plastic characterization of a new developed additively manufactured functionally graded porous lattice structure: analytical and numerical models. Int J Mech Sci 155:248–266CrossRef
7.
go back to reference He SY, Lv YN, Chen ST et al (2020) Gradient regulation and compressive properties of density-graded aluminum foam. Mater Sci Eng A 772:501–511CrossRef He SY, Lv YN, Chen ST et al (2020) Gradient regulation and compressive properties of density-graded aluminum foam. Mater Sci Eng A 772:501–511CrossRef
8.
go back to reference Khokhlov MA, Ishchenko DA (2015) Structural ultra-light porous metals (review). Avtomat Svarka 3‑4(741):60–65 Khokhlov MA, Ishchenko DA (2015) Structural ultra-light porous metals (review). Avtomat Svarka 3‑4(741):60–65
9.
go back to reference Kovtunov AI, Khokhlov YY, Novskii IV (2013) Prospects for using magnesium for the production of foam materials. Metall Mashinostr 4:9–11 Kovtunov AI, Khokhlov YY, Novskii IV (2013) Prospects for using magnesium for the production of foam materials. Metall Mashinostr 4:9–11
10.
go back to reference Vinogradov A, Vasilev E, Kopylov VI et al (2019) High performance fine-grained biodegradable Mg-Zn-Ca alloys processed by severe plastic deformation. Metals 9(2):186CrossRef Vinogradov A, Vasilev E, Kopylov VI et al (2019) High performance fine-grained biodegradable Mg-Zn-Ca alloys processed by severe plastic deformation. Metals 9(2):186CrossRef
11.
go back to reference Merson DL (2021) Magnesium alloys for medical purposes. In: Strength of heterogeneous structures—PROST 2020/2021. NITU MISiS, Moscow Merson DL (2021) Magnesium alloys for medical purposes. In: Strength of heterogeneous structures—PROST 2020/2021. NITU MISiS, Moscow
12.
go back to reference Vinogradov AY, Merson DL, Merson ED (2018) Promising bioresorbable magnesium alloys. In: Proceedings of the 60th international scientific conference “current problems of strength” Vinogradov AY, Merson DL, Merson ED (2018) Promising bioresorbable magnesium alloys. In: Proceedings of the 60th international scientific conference “current problems of strength”
13.
go back to reference Prokhorchuk EA, Leonov AA, Vlasova KA et al (2021) Prospects for the use of aluminium foam for aerospace products (review). Trudy Viam 12(106):21–30 Prokhorchuk EA, Leonov AA, Vlasova KA et al (2021) Prospects for the use of aluminium foam for aerospace products (review). Trudy Viam 12(106):21–30
14.
go back to reference Finkelshtein AB (2010) Making porous aluminium alloy castings by impregnation. Litein Proizv 5:13–15 Finkelshtein AB (2010) Making porous aluminium alloy castings by impregnation. Litein Proizv 5:13–15
15.
go back to reference Kovtunov AI, Khokhlov YY, Myamin SV (2015) Technology of forming layered composite materials of the titanium-aluminium foam system. Metallurg 4:60–61 Kovtunov AI, Khokhlov YY, Myamin SV (2015) Technology of forming layered composite materials of the titanium-aluminium foam system. Metallurg 4:60–61
16.
go back to reference Hassanli F, Paydar MH (2021) Improvement in energy absorption properties of aluminum foams by designing pore-density distribution. J Mater Res Technol 14:609–619CrossRef Hassanli F, Paydar MH (2021) Improvement in energy absorption properties of aluminum foams by designing pore-density distribution. J Mater Res Technol 14:609–619CrossRef
17.
go back to reference Kuksa AV, Kidalov NA, Rozhkov PV, Toroshchin AV (2013) Producing porous cast blanks by vacuum impregnation using granulated polystyrene foam as a foaming agent. Izv Volggtu 6(109):115–119 Kuksa AV, Kidalov NA, Rozhkov PV, Toroshchin AV (2013) Producing porous cast blanks by vacuum impregnation using granulated polystyrene foam as a foaming agent. Izv Volggtu 6(109):115–119
18.
go back to reference Selyanin IF, Morin SV, Khamitov RM et al (2005) Study of the effect of vibration on the process of alloys shrinkage and crystallization. Zagotov Proizv Mashinostr 3:15–17 Selyanin IF, Morin SV, Khamitov RM et al (2005) Study of the effect of vibration on the process of alloys shrinkage and crystallization. Zagotov Proizv Mashinostr 3:15–17
19.
go back to reference Morin SV (2005) Comprehensive study of effect of vibration on crystallization and properties of castings from aluminium alloys: doctor of science thesis. Liteinoe Proizvodstvo, Novokuznetsk Morin SV (2005) Comprehensive study of effect of vibration on crystallization and properties of castings from aluminium alloys: doctor of science thesis. Liteinoe Proizvodstvo, Novokuznetsk
20.
go back to reference Petrunin IE (2003) Handbook on soldering, 3rd edn. Mashinostroenie, Moscow Petrunin IE (2003) Handbook on soldering, 3rd edn. Mashinostroenie, Moscow
Metadata
Title
Investigation of the influence of vibration on the processes of porous magnesium products formation
Authors
A. I. Kovtunov
Yu. Yu. Khokhlov
P. N. Selyanin
Publication date
21-06-2024
Publisher
Springer US
Published in
Metallurgist / Issue 1/2024
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI
https://doi.org/10.1007/s11015-024-01711-8

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