Mathematical variational method for determining the effective yield strength of two-component composite materials

I. K. Arkhipov; V. I. Abramova; O. V. Kuzovleva; A. E. Gvozdev

Geodesic

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Mathematical variational method for determining the effective yield strength of two-component composite materials

I. K. Arkhipov ; V. I. Abramova ; O. V. Kuzovleva ; A. E. Gvozdev

Čebyševskij sbornik, Tome 22 (2021) no. 1, pp. 370-377.

Voir la notice de l'article provenant de la source Math-Net.Ru

Résumé

The paper proposes the development of the mathematical variational Hashin-Strickman method, which was previously used to determine the maximum possible values of effective elastic characteristics. In this case, the effective plasticity characteristics of two-component composites are determined. In particular, the fork of possible values of the effective yield strength of such composite materials is determined.

Keywords: variational method, composite materials, plasticity characteristics.

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     title = {Mathematical variational method for determining the effective yield strength of two-component composite materials},
     journal = {\v{C}eby\v{s}evskij sbornik},
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     number = {1},
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I. K. Arkhipov; V. I. Abramova; O. V. Kuzovleva; A. E. Gvozdev. Mathematical variational method for determining the effective yield strength of two-component composite materials. Čebyševskij sbornik, Tome 22 (2021) no. 1, pp. 370-377. http://geodesic.mathdoc.fr/item/CHEB_2021_22_1_a24/

Bibliographie
Cité par

[1] Hashin Z., “Theory of mechanical behavior of heterogeneous media”, Appl. Mech. Rev., 17:1 (1964)

[2] Hashin Z., Shtrikman S., “On some variational principles in anisotropic and nonhomogeneous elasticity”, J. Mech. Phys. Solids, 10:4 (1962), 335 | DOI | MR

[3] Arkhipov I. K., Kharakteristiki svoistv uprugosti i plastichnosti kompozitsionnykh materialov, Dissertatsiya na soiskanie uchenoi stepeni doktora tekhnicheskikh nauk, Tula, 1995, 218 pp.

[4] Shermergor T. D., Teoriya uprugosti mikroneodnorodnykh sred, Nauka, M., 1977, 399 pp.

[5] Zubchenko A. S., Marochnik stalei i splavov, Mashinostroenie, M., 2003, 715 pp.

[6] Shtanov E. N., Shtanova I. A., Tsvetnye metally i splavy. Spravochnik, Venta-2, N. Novgorod, 2001, 277 pp.

[7] Gvozdev A. E., Golyshev I. V., Minayev I. V., Sergeyev A. N., Sergeyev N. N., Tikhonova I. V., Khonelidze D. M., Kolmakov A. G., “Multiparametric optimization of lasercutt in gofsteel sheets”, Inorganic Materials: Applied Research, 6:1 (2015), 305–310 | DOI | MR

[8] Gvozdev A. E., Sergeev N. N., Minaev I. V., Tikhonova I. V., “Role of nucleation in the development of first-order phase transformations”, Inorganic Materials: Applied Research, 6:4 (2015), 283–288 | DOI

[9] E. V. Ageev, E. A. Vorobev, A. E. Gvozdev, E. V. Ageeva, Sposob polucheniya metallicheskogo poroshka iz otkhodov bystrorezhuschei stali v kerosine, Patent na izobretenie 2014135667/02 (2590045) Rossiiskaya Federatsiya. Zayavitel i patentoobladatel: Yugo-Zapadnyi gosudarstvennyi universitet. No 2014135667/02, opubl. 10.07.2016. Byul. No 19

[10] E. V. Ageev, N. M. Khoryakova, A. E. Gvozdev, E. V. Ageeva, V. S. Malyukhov, Sposob polucheniya nanoporoshka medi iz otkhodov, Patent na izobretenie 2014135539 (2597445) Rossiiskaya Federatsiya. Zayavitel i patentoobladatel: Yugo-Zapadnyi gosudarstvennyi universitet. No 2014135539/02, opubl. 10.09.2016. Byul. No 25

[11] E. V. Ageev, E. V. Ageeva, N. M. Khoryakova, A. E. Gvozdev, Sposob polucheniya mednogo poroshka iz otkhodov, Patent na izobretenie 2014135563 (2599476) Rossiiskaya Federatsiya. Zayavitel i patentoobladatel: Yugo-Zapadnyi gosudarstvennyi universitet. No 2014135563, opubl. 10.10.2016

[12] Breki A. D., Gvozdev A. E., Kolmakov A. G., “Ispolzovanie obobschennogo treugolnika Paskalya dlya opisaniya kolebanii sily treniya materialov”, Materialovedenie, 2016, no. 11, 3–8

[13] Shorshorov M. Kh., Gvozdev A. E., Afanaskin A. V., Gvozdev E. A., “Raschet klasternoi struktury rasplava, ee vliyanie na obrazovanie nanoamorfnykh tverdykh faz i ikh strukturnuyu relaksatsiyu pri posleduyuschem nagreve”, Metallovedenie i termicheskaya obrabotka metallov, 2002, no. 6, 12–16

[14] Shorshorov M. Kh., Gvozdev A. E., “O mekhanizmakh i kinetike protsessov akkomodatsii zeren pri sverkhplasticheskoi deformatsii metallicheskikh splavov v usloviyakh odnoosnogo rastyazheniya”, Materialovedenie, 2004, no. 7 (88), 13–17

[15] Gvozdev A. E., Sergeev N. N., Minaev I. V., Tikhonova I. V., “Role of nucleation in the development of first-order phase transformations”, Inorganic Materials: Applied Research, 6:4 (2015), 283–288 | DOI

[16] Gvozdev A. E., Kolmakov A .G., Kuzovleva O. V., Sergeev N. N., Tikhonova I. V., “Mekhanicheskie svoistva konstruktsionnykh i instrumentalnykh stalei v sostoyanii predprevrascheniya pri termomekhanicheskom vozdeistvii”, Deformatsiya i razrushenie materialov, 2013, no. 11, 39–43

[17] Gvozdev A. E., Kolmakov A. G., Provotorov D. A., Bogolyubova D. N., Sergeev N., Tikhonova I. V., “Features of Softening Processes of Aluminum, Copper, and Their Alloys under Hot Deformation”, Inorganic Materials: Applied Research, 6:1 (2015), 32–40 | DOI

[18] Gvozdev A. E., Kolmakov A. G., Provotorov D. A., Minaev I. V., Sergeev N. N., Tikhonova I. V., “Grain size effect of austenite on the kinetics of pearlite transformation in low and medium carbon low alloy steels”, Inorganic Materials: Applied Research, 6:1 (2015), 41–44 | DOI

[19] Zhuravlev G. M., Gvozdev A. E., Sergeev N. N., Provotorov D. A., “Variant rascheta maksimalnogo uprochneniya malouglerodistykh stalei v protsessakh plasticheskoi deformatsii”, Proizvodstvo prokata, 2016, no. 7, 9–13

[20] Gvozdev A. E., Zhuravlev G. M., Kolmakov A. G., Sergeev N. N., “Raschet deformatsionnoi povrezhdaemosti v protsessakh obratnogo vydavlivaniya metallicheskikh izdelii”, Tekhnologiya metallov, 2016, no. 1, 23–32

[21] Breki A. D., Vasilyeva E. S., Tolochko O. V., Didenko A. L., Kudryavtsev V. V., Kolmakov A. G., Sergeev N. N., Gvozdev A. E., Starikov N. E., Provotorov D. A., Fadin Y. A., “Synthesis and tribotechnical properties of composite coatings with PM-DAD PE polyimide matrix and fillers of tung stendich alcogenide nanoparticle supon dry sliding friction”, Inorganic Materials: Applied Research, 7:4 (2016), 542–546 | DOI

[22] Zhuravlev G. M., Gvozdev A. E., Obrabotka stalei i splavov v intervale temperatur fazovykh prevraschenii, Izdatelstvo TulGU, Tula, 2016, 320 pp.

[23] Kuzovleva O. V., Gvozdev A. E., Tikhonova I. V., Sergeev N. N., Breki A. D., Starikov N. E., Sergeev A. N., Kalinin A. A., Malii D. V., Titova Yu. E., Aleksandrov S. E., Krylov N. A., O sostoyanii predprevrascheniya metallov i splavov, Izdatelstvo TulGU, Tula, 2016, 245 pp.

[24] Breki A. D., Didenko A. L., Kudryavtsev V. V., Vasilyeva E. S., Tolochko O. V., Gvozdev A. E., Sergeyev N .N., Provotorov D. A., Starikov N. E., Fadin Yu. A., Kolmakov A. G., “Composite coatings based on A-OOO polyimide and WS2 nanoparticles with enhanced dry sliding characteristics”, Inorganic Materials: Applied Research, 8:1 (2017), 56–59 | DOI

[25] Breki A. D., Gvozdev A. E., Kolmakov A. G., “Application of generalized pascal triangle for description of oscillations of friction forces”, Inorganic Materials: Applied Research, 8:4 (2017), 509–514 | DOI | MR

[26] Gvozdev A. E., Ekstremalnye effekty prochnosti i plastichnosti v metallicheskikh vysokolegirovannykh slitkovykh i poroshkovykh sistemakh, 2-e izd., ispr. i dop., Izdatelstvo TulGU, Tula, 2019, 476 pp.

[27] Gvozdev A. E., Sergeev N. N., Starikov N. E., Sapozhnikov S. V., Kutepov S. N., Malyarov A. V., Kalinin A. A., Malootkhodnye tekhnologii polucheniya instrumenta iz goryachekatanykh, poroshkovykh i litykh zagotovok bystrorezhuschikh stalei, 2-e izd., ispr. i dop., ed. N.N. Sergeev, Izdatelstvo TulGU, Tula, 2019, 282 pp.

[28] Minaev I. V., Tikhonova I. V., Gvozdev A. E., Kolmakov A. G., Arkhipova E. A., “Formirovanie poverkhnosti reza i poverkhnostnoe uprochnenie pri lazernoi rezke zvezdochkoi dlya tsepei iz stalei St.3 i 30KhGSA”, Deformatsiya i razrushenie materialov, 2020, no. 9, 16–21

[29] Sergeev N. N., Minaev I. V., Tikhonova I. V., Gvozdev A. E., Kolmakov A. G., Sergeev A. N., Kutepov S. N., Malii D. V., “Selecting Laser Cutting Modes for Engineering Steel Sheets Aiming at Provision of the Required Properties of Surface Quality”, Inorganic Materials: Applied Research, 11:4 (2020), 815–822 | DOI