Magnetic Susceptibility of Powders and Magnetic Particles (Modified Inclusions of Iron Oxides) Carbon Sorbents-Reference-Cited by-同舟云学术

Magnetic Susceptibility of Powders and Magnetic Particles (Modified Inclusions of Iron Oxides) Carbon Sorbents

Published:2022-08-02 Issue: Volume:908 Page:103-111
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Sandulyak Anna A.¹,Polismakova M.N.¹,Sandulyak D.A.¹,Sandulyak Alexander V.¹,Repetunov R.A.¹,Kurmysheva Alexandra Yu.²,Makhiboroda M.A.³

Affiliation:

1. MIREA - Russian Technological University

2. Moscow State University of Technology “STANKIN”

3. National Research University of Electronic Technology (MIET)

Abstract

There is a lack of information on the magnetic properties of particles of such materials as powder magnetic (modified by inclusions of magnetite and maghemite) carbon sorbents intended for water purification from various kinds of impurities and, what is especially important, allowing to perform the prompt isolation of the spent sorbent – by magnetic separation. The data on the magnetic susceptibility χ of the particles of these sorbents, found by the developed experimental calculation method based on the concept of the corresponding magnetometry of a moderately rarefied dispersed sample with a dispersed phase of the particles under study, are presented. Experimental dependences of the magnetic susceptibility of <χ>of a dispersed sample on the volume fraction γ of controlled particles in it have been obtained - for different values of the magnetic field strength H in the range from 22 to 61 kA/m, i.e. in the postextremal region for the susceptibility. In addition to the necessary assessment of their linear, located at γ ≤ 0.15-0.2, sections, this also made it possible to find and phenomenologically describe the field dependences of the generalized data of the reduced susceptibility of <χ>/γ, i.e. data χ: in the form of an inverse power function with a power of 0.7 ... 0.8 at H.

Publisher

Trans Tech Publications, Ltd.

Subject

Anesthesiology and Pain Medicine

Link

https://www.scientific.net/AMM.908.103.pdf

Reference27 articles.

1. M.D. Vedenyapina, A.Yu. Kurmysheva, Yu.G. Kryazhev, V.A. Ershova, Magnetic Iron-Containing Carbon Materials as Sorbents for the Removal of Pollutants from Aquatic Media (A Review), Solid Fuel Chemistry. 55 (5) (2021) 285–305.

2. A.A. Sandulyak, A.V. Sandulyak, D.O. Kiselev, D.A. Sandulyak, M.N. Polismakova, V.A. Ershova, About the method of obtaining data of magnetic susceptibility of disperse phase' ferroparticles of powder on concentration and field dependences of its susceptibility, Pribory. №11 (221) (2018) 43-51 (in Russ.).

3. A.A. Sandulyak, A.V. Sandulyak, V.A. Ershova, N. Pamme, B. Ngmasom, A. Iles, J. Magn. Magn. Mat. 441 (2017) 724–734.

4. A.A. Sandulyak, D.A. Sandulyak, M.N. Polismakova, A.V. Sandulyak, D.O. Kiselev, V.A. Ershova, Analysis of Concentration Dependences of Magnetic Susceptibilities of Disperse Magnetite-Containing Media, J Eng Phys Thermophys. 90 (4) (2017) 845-850.

5. A.A. Sandulyak, M.N. Polismakova, D.O. Kiselev, D.A. Sandulyak, Sandulyak A.V. On limiting the volume fraction of particles in the disperse sample (for the tasks on controlling their magnetic properties), Fine Chemical Technologies. 12 (3) (2017) 58-64. (in Russ.).

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