Kostanovskaya Margarita Evgen'evna

Publications in Math-Net.Ru

1. Влияние температуры и силы тока на контактное электрическое сопротивление графита
   
   TVT, Forthcoming paper
2. Распределение температуры в области контактной электрической поверхности графита
   
   TVT, Forthcoming paper
3. Thermal effect in the contact resistance of graphite
   
   TVT, 60:6 (2022),  946–949
4. Contact electrical resistance of grade MPG-$7$ graphite at DC and AC current
   
   TVT, 60:5 (2022),  789–792
5. Electrical contact resistance of graphite
   
   TVT, 60:4 (2022),  519–523
6. Determination of specific heat in experiments with pulsed electric heating
   
   TVT, 59:5 (2021),  790–793
7. Relationship between force and heat flux in the electric-pulse heating of a metal conductor
   
   TVT, 58:5 (2020),  826–828
8. Influence of heating temperature on the electrical resistivity of pyrolytic graphite
   
   TVT, 58:4 (2020),  732–734
9. Electrical resistivity of the $c$ surface of pyrolytic UPV-1 graphite in a temperature range of $2200$–$3200$ K
   
   TVT, 58:1 (2020),  141–143
10. Emittance properties of siliconized silicon carbide in the temperature range of $1400$–$2200$ K
    
    TVT, 57:2 (2019),  301–303
11. Thermal conductivity of silicicated silicon carbide at $1400$–$2200$ K
    
    TVT, 57:1 (2019),  137–139
12. Thermal expansion of zirconium carbide at $1200$–$2850$ K
    
    TVT, 56:6 (2018),  956–958
13. Electrical resistivity of silicated silicon carbide
    
    TVT, 56:5 (2018),  841–843
14. Relative elongation of silicicated silicon carbide at temperatures of $1150$–$2500$ K
    
    TVT, 56:2 (2018),  310–312
15. Relative lengthening of $\rm ZrO_2$ in the temperature range of $1200$–$2700$ K
    
    TVT, 55:6 (2017),  782–784
16. The role of heat flux in the nonsteady thermal problem of molybdenum sphere cooling in an electrostatic levitation experiment
    
    TVT, 55:6 (2017),  696–699
17. Self-heating effect at graphite ohmic heating
    
    TVT, 55:5 (2017),  732–736
18. Investigation of stability of the relative elongation of GIP-4 graphite under cyclic thermal loads
    
    TVT, 54:1 (2016),  144–146
19. Investigation of stability of specific elongation of graphite of $\text{DE}$-$24$ grade under cyclic heat loads
    
    TVT, 53:1 (2015),  54–57
20. About a phonon mechanism of heat conduction in graphite at high temperatures
    
    TVT, 51:3 (2013),  477–480
21. Thermograms of melting of thin plates heated by laser radiation with modulated intensity
    
    TVT, 44:5 (2006),  673–681
22. The Determination of Thermal Conductivity and Emissivity of Graphite at High Temperatures
    
    TVT, 43:5 (2005),  791–793
23. Possibility of increasing the degree of perfection of a blackbody model
    
    TVT, 39:2 (2001),  347–349
24. Experimental determination of the emissivity of isotropic graphite at temperatures above $2300$ K
    
    TVT, 39:1 (2001),  163–165
25. Determination of the melting temperature for high-temperature materials by the thermogram method under laser heating
    
    TVT, 36:6 (1998),  921–926
26. High-temperature blackbody model
    
    TVT, 35:1 (1997),  122–128
27. Space-time structure of thermal interaction in the brief contact of a liquid droplet with a supercritically heated surface
    
    TVT, 24:4 (1986),  753–761
28. Heat and mass-transfer in the short-term contact of a liquid-drop with a strongly superheated surface
    
    TVT, 22:6 (1984),  1158–1165
29. Temperature regimes arising in the analysis of some $3$-layer heat-conduction problems
    
    TVT, 22:1 (1984),  64–68