Voir la notice de l'article provenant de la source Math-Net.Ru
@article{INTO_2019_166_a5,
author = {M. G. Romanenko and G. V. Shagrova and V. I. Drozdova},
title = {Computer simulation system for oscillations of magnetizable microdroplets taking into account the dependency of the interfacial tension on the strength of an external magnetic field},
journal = {Itogi nauki i tehniki. Sovremenna\^a matematika i e\"e prilo\v{z}eni\^a. Temati\v{c}eskie obzory},
pages = {57--65},
publisher = {mathdoc},
volume = {166},
year = {2019},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/INTO_2019_166_a5/}
}
TY - JOUR AU - M. G. Romanenko AU - G. V. Shagrova AU - V. I. Drozdova TI - Computer simulation system for oscillations of magnetizable microdroplets taking into account the dependency of the interfacial tension on the strength of an external magnetic field JO - Itogi nauki i tehniki. Sovremennaâ matematika i eë priloženiâ. Tematičeskie obzory PY - 2019 SP - 57 EP - 65 VL - 166 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/INTO_2019_166_a5/ LA - ru ID - INTO_2019_166_a5 ER -
%0 Journal Article %A M. G. Romanenko %A G. V. Shagrova %A V. I. Drozdova %T Computer simulation system for oscillations of magnetizable microdroplets taking into account the dependency of the interfacial tension on the strength of an external magnetic field %J Itogi nauki i tehniki. Sovremennaâ matematika i eë priloženiâ. Tematičeskie obzory %D 2019 %P 57-65 %V 166 %I mathdoc %U http://geodesic.mathdoc.fr/item/INTO_2019_166_a5/ %G ru %F INTO_2019_166_a5
M. G. Romanenko; G. V. Shagrova; V. I. Drozdova. Computer simulation system for oscillations of magnetizable microdroplets taking into account the dependency of the interfacial tension on the strength of an external magnetic field. Itogi nauki i tehniki. Sovremennaâ matematika i eë priloženiâ. Tematičeskie obzory, Proceedings of the IV International Scientific Conference "Actual Problems of Applied Mathematics". Kabardino-Balkar Republic, Nalchik, Elbrus Region, May 22–26, 2018. Part II, Tome 166 (2019), pp. 57-65. http://geodesic.mathdoc.fr/item/INTO_2019_166_a5/
[1] Drozdova V. I., Skibin Yu. N., Shagrova G. V., Yakshtas A. A., Sposob opredeleniya polei rasseyaniya magnitnykh golovok, Avtorskoe svidetelstvo No 1465843, 1989
[2] Drozdova V. I., Skibin Yu. N., Shagrova G. V., Shulga O. V., Yakshtas A. A., Magnitochuvstvitelnaya zhidkost dlya vizualizatsii magnitnoi zapisi, Avtorskoe svidetelstvo No 1593484, 1990
[3] Bratukhin Yu. K., Lebedev A. V., “Vynuzhdennye kolebaniya kapli magnitnoi zhidkosti”, ZhETF., 121:6 (2002), 1298–1305
[4] Gladkikh D. V., Dikanskii Yu. I., “Osobennosti vzaimodeistviya magnitnoi zhidkosti, imeyuschei mikrokapelnuyu strukturu, s peremennym magnitnym polem”, Zh. tekhn. fiz., 26:8 (2006), 13–18
[5] Golubyatnikov A. N., Subkhankulov G. I., “O poverkhnostnom natyazhenii magnitnoi zhidkosti”, Magnit. gidrodinam., 1986, no. 1, 73–78
[6] Direktor L. B., Maikov I. L., “K zadache opredeleniya teplofizicheskikh svoistv zhidkosti metodom nezatukhayuschikh kolebanii kapli”, Sb. tez. XIX Mezhdunar. konf. «Uravneniya sostoyaniya veschestva», Elbrus, Nalchik, 2004, 21–22
[7] Drozdova V. I., Kushnarev V. V., Shagrova G. V., “O vynuzhdennykh kolebanii mikrokapelnykh agregatov v magnitnykh zhidkostyakh”, Kolloid. zh., 68:2 (2006), 1–6
[8] Drozdova V. I., Skibin Yu. N., Chekanov V. V., “Issledovanie kolebanii kapel magnitnoi zhidkosti”, Magnit. gidrodinam., 1981, no. 4, 17–23
[9] Zhakin A. I., “O zavisimosti poverkhnostnogo natyazheniya rastvorov i suspenzii ot napryazhennosti magnitnogo i elektricheskogo polei”, Magnit. gidrodinam., 1989, no. 3, 75–80
[10] Zharov A. N., Shiryaeva S. O., Grigorev A. I., “Nelineinye kolebaniya zaryazhennoi kapli v tretem poryadke malosti po amplitude mnogomodovoi nachalnoi deformatsii”, Zh. tekhn. fiz., 73:12 (2003), 9–19
[11] Zhukov A. V., “Vliyanie elektromagnitnogo polya na poverkhnostnoe natyazhenie i ustoichivost poverkhnostei razdela polyarizuyuschikhsya i namagnichivayuschikhsya zhidkostei”, Vestn. Nizhegorod. un-ta im. N. I. Lobachevskogo. Mekh. zhidk. gaza., 4:3 (2011), 781–783
[12] Ivanov A. S., Khokhryakova (Bushueva) K. A., “O lineinoi teorii zavisimosti poverkhnostnogo mezhfaznogo natyazheniya kapelnykh agregatov v magnitnykh zhidkostyakh”, Sb. tr. VI Vseross. nauch. konf. «Fiziko-khimicheskie i prikladnye problemy magnitnykh dispersnykh nanosistem» (sentyabr 2017), SKFU, Stavropol, 2017, 312–318
[13] Maikov I. L., Direktor L. B., “Chislennaya model dinamiki kapli vyazkoi zhidkosti”, Vychisl. met. programmir., 10 (2009), 148–157
[14] Maikov I. L., Direktor L. B., “Chislennoe reshenie zadachi o zatukhayuschikh nelineinykh kolebaniyakh kapli vyazkoi zhidkosti”, ZhETF., 133:6 (2008), 1–8
[15] Romanenko M. G., Drozdova V. I., Shagrova G. V., “Modelirovanie kolebanii magnitozhidkostnykh mikrokapel s uchetom zavisimostei vyazkosti i poverkhnostnogo natyazheniya ot temperatury”, Mat. Mezhdunar. nauch. konf. «Aktualnye problemy prikladnoi matematiki i fiziki», IPMA KBNTs RAN, Nalchik, 2017, 265
[16] Romanenko M. G., Shagrova G. V., Drozdova V. I., “Modelirovanie kolebanii magnitozhidkostnykh mikrokapel s uchetom zavisimosti poverkhnostnogo natyazheniya ot polya”, Mat. IV Mezhdunar. nauch. konf. «Aktualnye problemy prikladnoi matematiki» (22–26 maya 2018), IPMA KBNTs RAN, Nalchik, 2018, 216
[17] Relei D., Teoriya zvuka, Gostekhizdat, M., 1944
[18] Tsebers A. O., “Obrazovanie i svoistva krupnykh konglomeratov magnitnykh chastits”, Magnit. gidrodinam., 19:3 (1983), 3–11 | Zbl
[19] Chekanov V. V., Khalupovskii M. D., Chuenkova I. Yu., Malyutin V. V., “O forme kapli i mezhfaznom natyazhenii magnitnoi zhidkosti v odnorodnom magnitnom pole”, Magnit. gidrodinam., 24:3 (1988), 124–128
[20] Shagrova G. V., Drozdova V. I., Romanenko M. G., “Eksperimentalnoe issledovanie zavisimosti mezhfaznogo natyazheniya magnitozhidkostnykh mikrokapel ot magnitnogo polya”, Sb. tr. VI Vseross. nauch. konf. «Fiziko-khimicheskie i prikladnye problemy magnitnykh dispersnykh nanosistem», SKFU, Stavropol, 2017, 96–102
[21] Shagrova G. V., Drozdova V. I., Terekhin V. I., Romanenko M. G., “Primenenie magnitnykh zhidkostei v defektoskopii”, Mat. 13 Mezhdunar. konf. «Sovremennye metody i sredstva nerazrushayuschego kontrolya i tekhnicheskoi diagnostiki» (3–7 oktyabrya 2005), Yalta–Kiev, 141–143
[22] Afkhami S., Tyler A. J., Renardy Y., Renardy M., St. Pierre T. G., Woodward R. C., Riffle J. S., “Deformation of a hydrophobic ferrouid droplet suspended in a viscous medium under uniform magnetic fields”, J. Fluid Mech., 663 (2010), 358–384 | DOI | MR | Zbl
[23] Bacri J. C., Salin D., “Dynamics of the shape transition of a magnetic ferrofluid drop”, J. Phys. Lett., 44 (1983), 415–420 | DOI
[24] Bzdek B. R., Power R. M., Simpson S. H., Reid J. P., Roya C. P., “Precise, contactless measurements of the surface tension of picolitre aerosol droplets”, Chem Sci., 7:1 (2016), 274–285 | DOI
[25] Drozdova V. I., Shagrova G. V., “Dynamics of optical scattering on ferrofluid agglomerate magnetic drops”, J. Magnet. Magnet. Mater., 85 (1990), 93–96 | DOI
[26] Paradis P. F., Ishikawa T., Yoda, “Noncontact measurements of surface tension and viscosity of Niobium, Zirconium, and Titanium using an electrostatic levitation furnace”, Int. J. Thermophys., 23:3 (2002), 825–842 | DOI
[27] Shagrova G. V., Drozdova V. I., Romanenko M. G., “Modeling oscillations of magnetizable microdrops”, J. Nano Electron. Phys., 7:4 (2015), 04020, 4 pp.