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TVT, 2012, Volume 50, Issue 4, Pages 509–513 (Mi tvt362)  

This article is cited in 6 scientific papers (total in 6 papers)

Thermophysical Properties of Materials

Emissivity and electrical resistivity of titanium alloys with aluminum and vanadium

E. A. Belskaya

Joint Institute for High Temperatures, Russian Academy of Sciences, Izhorskaya ul. 13, Bld. 2, Moscow, 125412, Russia

Abstract: The results are presented of the simultaneous measurements of the integral hemispherical emissivity, $\varepsilon_{\mathrm{th}}$, and electrical resistance, $\rho$, of model alloys of titanium doped by aluminum and vanadium. The aluminum content in the solid solutions of the $\mathrm{Ti}$$\mathrm{Al}$ system didn't exceed $10.5%$ (at.). Adding of vanadium as the second dopant to the same materials was within $2$$3%$ (at.).
The experimental data on $\varepsilon_{\mathrm{th}}$ are presented for the temperature range of $700$$1700$ K and on $\rho$, for $77$$1700$ K. The experimental results show that it is impossible to establish any mutual correlation between the volumetric and the surface properties of the alloys investigated.

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English version:
High Temperature, 2012, 50:4, 475–478

Bibliographic databases:

UDC: 669.295:536.3:537.3
Received: 06.10.2011

Citation: E. A. Belskaya, “Emissivity and electrical resistivity of titanium alloys with aluminum and vanadium”, TVT, 50:4 (2012), 509–513; High Temperature, 50:4 (2012), 475–478

Citation in format AMSBIB
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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

    This publication is cited in the following articles:
    1. E. A. Bel'skaya, E. Yu. Kulyamina, “Influence of Aluminum and Vanadium Alloying Elements on the Resistivity of Titanium”, High Temperature, 52:2 (2014), 192–197  mathnet  crossref  crossref  isi  elib  elib
    2. A. G. Vikulov, D. G. Vikulov, S. Yu. Mesnyankin, A. Yu. Fel'dman, “Experimental study of electrone conductivity of aluminum materials contact in the presence of surface nanofilms”, High Temperature, 53:1 (2015), 36–44  mathnet  crossref  crossref  isi  elib  elib
    3. Zheng Ch., Tan Y., Wen J.T., Maniatty A.M., “Finite Element Model Based Temperature Consensus Control For Material Microstructure”, 2015 American Control Conference (Acc), Proceedings of the American Control Conference, IEEE, 2015, 619–624  crossref  isi
    4. Nastic A., Jodoin B., “Evaluation of Heat Transfer Transport Coefficient For Cold Spray Through Computational Fluid Dynamics and Particle in-Flight Temperature Measurement Using a High-Speed Ir Camera”, J. Therm. Spray Technol., 27:8 (2018), 1491–1517  crossref  isi  scopus
    5. Boone N., Zhu C., Smith C., Todd I., Willmott J.R., “Thermal Near Infrared Monitoring System For Electron Beam Melting With Emissivity Tracking”, Addit. Manuf., 22 (2018), 601–605  crossref  isi  scopus
    6. Rae W., “Thermo-Metallo-Mechanical Modelling of Heat Treatment Induced Residual Stress in Ti-6Al-4V Alloy”, Mater. Sci. Technol., 35:7 (2019), 747–766  crossref  isi
  • Teplofizika vysokikh temperatur Teplofizika vysokikh temperatur
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