Previous Page  14 / 15 Next Page
Information
Show Menu
Previous Page 14 / 15 Next Page
Page Background

14.

Карташев Э.М.

Аналитические методы в теплопроводности твердых тел. М.:

Высш. шк., 1979. 416 с.

15.

Беляев Н.М.

,

Рядно А.А.

Методы нестационарной теплопроводности. М.: Высш.

шк., 1978. 328 с.

16.

Dobrovinskaya E.

,

Lytvynov L.

,

Pishchik V.

Sapphire. Material, Manufacturing,

Applications. New York: Springer, 2009. P. 109–114.

17.

Павлушкин Н.М.

Стекло. М.: Букинист, 1973. 488 с.

REFERENCES

[1] Lukashevich V.P., Afanas’ev I.B. Kosmicheskie kryl’ya [Space Wings]. LenTa

Ctranstviy Publ., 2009. 498 p.

[2] Zheleznyakova A.N., Surzhikov S.T. Numerical Simulation of Hypersonic Flow Past

Model of X-43 Flying Vehicle.

Vestn. Mosk. Gos. Tekh. Univ. im. N.E. Baumana,

Mashinostr.

[Herald of the Bauman Moscow State Tech. Univ., Mech. Eng.], 2010,

no. 1, pp. 3–19 (in Russ.).

[3] Eliseev V.N., Tovstonog V.A. Teploobmen i teplovye ispytaniya materialov i

konstruktsiy aerokosmicheskoy tekhniki pri radiatsionnom nagreve [Heat Transfer

and Thermal Tests of Materials and Aerospace Structures under Radiant Heating].

Moscow, MGTU im. N.E. Baumana Publ., 2014. 400 p.

[4] Eliseev V.N., Tovstonog V.A. Analysis of Technical Feasibilities to Create the High-

Efficient Radiation-Heating Plants for Thermal Testing of Aerospace Machinery

Objects.

Vestn. Mosk. Gos. Tekh. Univ. im. N.E. Baumana, Mashinostr.

[Herald of

the Bauman Moscow State Tech. Univ., Mech. Eng.], 2011, no. 1, pp. 57–70 (in

Russ.).

[5] Ivanov A.V. Prochnost’ opticheskikh materialov [Strength of Optical Materials].

Leningrad, Mashinostroenie Publ., 1989. 144 p.

[6] Stepan’yants Yu.R. Radiatsionnyy metod termicheskoy obrabotki izdeliy elektronnoy

tekhniki [Radiation Heat Treatment of Electronic Articles]. Мoscow, Vyssh. shk.

Publ., 1986. 96 p.

[7] Eliseev V.N., Tovstonog V.A., Pavlova Ya.M. Thermal regime analysis of the shell of

the powerful gas-discharge emitting source for structure thermal testing.

Vestn. Mosk.

Gos. Tekh. Univ. im. N.E. Baumana, Mashinostr.

[Herald of the Bauman Moscow State

Tech. Univ., Mech. Eng.], 2015, no. 4, pp. 49–62 (in Russ.).

DOI: 10.18698/0236-3941-2015-4-49-62

[8] Optical Elements and Devices. Available at:

http://www.optotl.ru/Al

203 (accessed

05.08.2014).

[9] Quartz Glass. Available at:

http://www.stroitelstvo-new.ru/steklo/svojstva-2.html

(accessed 05.08.2014).

[10] Eliseev V.N. Calculation of Cylindrical Bulb Temperature of Cooled Gas Discharge

Tube.

Svetotekhnika

[Light & Engineering], 1960, no. 3, p. 6 (in Russ.).

[11] Lykov A.V. Teplomassoobmen. Spravochnik [Heat and Mass Transfer. Reference

Book]. Moscow, Energiya Publ., 1972. 560 p.

[12] Koshlyakov N.S., Gliner E.B., Smirnov M.M. Uravneniya v chastnykh proizvodnykh

matematicheskoy fiziki [Partial Differential Equations of Mathematical Physics].

Moscow, Vyssh. shk. Publ., 1970. 710 p.

[13] Eliseev V.N. Calculation of Radiative-Conductive Heat Transfer in a System

Closed by a Semitransparent Envelope.

Inzhenerno-fizicheskiy zhurnal

[Journal of

Engineering Physics and Thermophysics], 2000, vol. 73, no. 1, pp. 107–112.

[14] Kartashev E.M. Analiticheskie metody v teploprovodnosti tverdykh tel [Analytical

Methods in the Thermal Conductivity of Solids]. Moscow, Vyssh. shk. Publ., 1979.

416 p.

[15] Belyaev N.M., Ryadno A.A. Metody nestatsionarnoy teploprovodnosti [Methods of

Transient Heat Conduction]. Moscow, Vyssh. shk. Publ., 1978. 328 p.

58 ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. “Машиностроение”. 2016. № 2