The paper analyzes the results of research on the temperature coefficient of resistance, thermo-e.m.f. and the thermostability of multicomponent metal meshes depending on the presence of an alloying component, with the aim of applying them in electrical thermometry.
- V. Gregor, J. Kadlecova, "Low temperature resistivity of amorphous Fe-Ni based alloys," Phys. Stat. Sol.(B), vol. 97, no. 1, pp. K49, 1980.
- J.H. Mooiji, "Electrical Conductions in Concentrated Disordered Transition Metal Alloys," Phys. Stat. Sol.(A), vol. 17, p.521, 1973.
- P. Duwez, "Structure and Properties of Glassy Metals," Annual Review of Material Science, vol. 6, p. 83, 1976.
- F.I. Skoropad, I.P. Kurytniuk, B.I. Stadniuk, A.s. 1605720 USSR, MKI4 G01K 15/00, "Manufacturing method of heat exchangers from amorphous metal alloys," 8.07.90.
- G.S. Gargill, "Structure of metallic Glasses," Solid State Physics, vol. 30, pp. 227-289, 1975.
- C.H. Bennet, "Serially Deposited Amorphous Aggregate of Hard Spheres," J. Appl. Phys., vol. 43, no. 6, p. 2727, 1972.
- M.R. Heare, "The Glass Transition and The Nature of the Glassy State," New York: Academy of Sciences, p. 286, 1976.
- J.E. Ederby, R.A. Howe, "Electron Transport in Liguid Cu-Sn," Phil. Mag., vol. 18, no. 155, pp. 923-927, 1968.
- R. Wang, L.H. Bennet, "Theory of Alloy Phase Forma- tion," in Met. Soc. AIME, pp. 472-475, 1980.
- J.J. Gilman, H.J. Leamy, Eds., "Metallic Glasses," ASM, Metals Park, OH, p. 161, 1978.
- B.I. Stadnik, P.I. Skoropad, S.P. Yatsyshyn, "Criteria for assessing the temperature stability of thermoelectrodes made of metal scales," Thermoelectrics, no. 3, pp. 77-81, 2002.