Geodesic
Features of formation of thermoelastic fields at laser processing of diamond crystals
Problemy fiziki, matematiki i tehniki, no. 1 (2015), pp. 38-40.

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

Calculation of the thermoelastic fields formed in crystals of diamond upon exposure of laser radiation along the axes of symmetry of the second ($L_2$), the third ($L_3$) and the fourth ($L_4$) order is executed. The received results can be used for optimisation of the process of laser processing of diamond crystals.
Keywords: laser treatment, diamond, graphite, finite element method. 
@article{PFMT_2015_1_a6,
     author = {E. B. Shershnev and Yu. V. Nikitjuk and A. E. Shershnev and S. I. Sokolov},
     title = {Features of formation of thermoelastic fields at laser processing of diamond crystals},
     journal = {Problemy fiziki, matematiki i tehniki},
     pages = {38--40},
     publisher = {mathdoc},
     number = {1},
     year = {2015},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/PFMT_2015_1_a6/}
}
TY  - JOUR
AU  - E. B. Shershnev
AU  - Yu. V. Nikitjuk
AU  - A. E. Shershnev
AU  - S. I. Sokolov
TI  - Features of formation of thermoelastic fields at laser processing of diamond crystals
JO  - Problemy fiziki, matematiki i tehniki
PY  - 2015
SP  - 38
EP  - 40
IS  - 1
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/PFMT_2015_1_a6/
LA  - ru
ID  - PFMT_2015_1_a6
ER  - 
%0 Journal Article
%A E. B. Shershnev
%A Yu. V. Nikitjuk
%A A. E. Shershnev
%A S. I. Sokolov
%T Features of formation of thermoelastic fields at laser processing of diamond crystals
%J Problemy fiziki, matematiki i tehniki
%D 2015
%P 38-40
%N 1
%I mathdoc
%U http://geodesic.mathdoc.fr/item/PFMT_2015_1_a6/
%G ru
%F PFMT_2015_1_a6
E. B. Shershnev; Yu. V. Nikitjuk; A. E. Shershnev; S. I. Sokolov. Features of formation of thermoelastic fields at laser processing of diamond crystals. Problemy fiziki, matematiki i tehniki, no. 1 (2015), pp. 38-40. http://geodesic.mathdoc.fr/item/PFMT_2015_1_a6/

[1] A. Yu. Mityagin, A. A. Altukhov, A. B. Mityagina, “Tekhnologiya i oborudovanie dlya obrabotki almaznykh materialov sovremennoi tekhniki”, Tekhnologiya i konstruirovanie v elektronnoi apparature, 2009, no. 1, 53–58

[2] A. G. Grigoryants, A. A. Sokolov, Lazernaya tekhnika i tekhnologiya, v 7 kn., ucheb. posobie dlya vuzov, v. 4, Lazernaya obrabotka nemetallicheskikh materialov, ed. A. G. Grigoryants, Vyssh. shk., M., 1988, 191 pp.

[3] A. I. Shkadov, Fizicheskie osnovy lazernoi obrabotki almazov, v 15 kn., ucheb. posobie dlya VTUZov, v. 3, Fizicheskie osnovy lazernoi obrabotki almazov, ed. A. M. Bocharov, Smolensk, 1997, 288 pp.

[4] S. V. Shalupaev, E. B. Shershnev, Y. V. Nikitjuk, V. V. Sviridova, “Dependence of the diamond laser processing efficiency on crystallographic directions”, SPIE, 4358, 2001, 329–333

[5] E. B. Shershnev, Yu. V. Nikityuk, A. E. Shershnev, “Modelirovanie lazernoi obrabotki kristallov almaza”, Izvestiya Gomelskogo gosudarstvennogo universiteta im. F. Skoriny, 2011, no. 6(69), 164–168

[6] N. N. Shabrov, Metod konechnykh elementov v raschetakh detalei teplovykh dvigatelei, Mashinostroenie, L., 1983, 212 pp.

[7] A. D. Kovalenko, Osnovy termouprugosti, Navukova dumka, Kiev, 1970, 307 pp.

[8] G. P. Karzov, Fiziko-mekhanicheskoe modelirovanie protsessov razrusheniya, Politekhnika, SPb., 1993, 391 pp.

[9] A. M. Krivtsov, O. S. Loboda, S. S. Khakalo, “Sravnenie mikromodelei opisaniya uprugikh svoistv almaza”, Izvestiya RAN. Mekhanika tverdogo tela, 2012, no. 5, 44–52

[10] V. N. Belomestnykh, E. G. Soboleva, “Netraditsionnyi podkhod k opredeleniyu anizotropnykh koeffitsientov Puassona kubicheskikh kristallov”, Pisma o materialakh, 2:1 (2012), 13–16