REFERENCES
1.
Deulin E.A.
Exchange of gases at friction in vacuum. ECASIA ’97. John Wiley &
Sons, 1997, no. 11, pp. 1170–1175.
2.
Deulin E.A.
,
Goncharov S.A.
,
Segovia J.L.
,
Nevshoupa R.A.
Mechanically stimulated
solution of adsorbed hydrogen and deuterium in steel.
Surf. Interface Anal.
, 2000,
no. 30, pp. 635–637.
3.
Deulin E.A.
,
Nevshupa R.A.
Deuterium penetration into the bulk of a steel ball of
a ball bearing due to its rotation in vacuum.
Appl. Surf. Sci.
, 1999, vol. 144–145,
pp. 283–286.
4.
Deulin E.A.
,
Filippova N.V.
,
Papko V.M.
,
Ryabov N.V.
,
Papko V.M.
,
Tkacheva E.V.
Effect of gas adsorption on tribology of ball bearings in vacuum. Automotive
and industrial lubrication. Techniche Academie Esslingen Hrsg, Wilfreid J. Bartz,
Ostfildern, TAE Publ., 2006. 231 p.
5.
Deulin E.A.
,
Mashurov S.S.
,
Mirzoev A.M.
,
Tkacheva E.V.
The investigation of
causes for “hydrogen disease” in a gas pipeline material and the development of
vacuum methods to eliminate them.
Konvers. Mashinostr.
[Convers. Mech. Build.],
2007, vol. 3, pp. 32-36 (in Russ.).
6.
Deulin E.A.
,
Petrosyan G.A.
,
Bredikhin I.S.
Rezul’taty issledovaniya protsessa
rastvoreniya izotopov vodoroda v materialakh par treniya.
Vak. Tekh. Tekhnol.
[Vac.
Eng. Technol.], 2010, vol. 20, no. 2, pp. 81–84 (in Russ.).
7.
Deulin E.A.
,
Michailov V.P.
,
Panfilov Y.V.
,
Nevshupa R.A.
Mechanics and physics of
precise vacuum mechanisms. Springer, 2012, 234 p.
8.
Sieverts A.
,
Zapf G.
,
Mоritz H.
Solubility of hydrogen, deuterium, and nitrogen in
iron.
Z. Physik. Chem.
, 1938, vol. A183, pp. 19–37 (in German).
9.
Deulin E.A.
The unity of friction nanophysics for various engineering technologies.
Trenie Smazka Mash. Mekh.
[Frict. Lubr. Mach. Mech.], nos. 9–10, 2010, pp. 28–36
(in Russ.).
10.
Geller Yu.A.
,
Rakhshtadt A.G.
Materialovedenie [Materials Science]. Moscow,
Metallurgiya Publ., 1975.
11.
Morozov N.A.
Vodorod i azot v stali [Hydrogen and nitrogen in steel]. Moscow,
Metallurgiya Publ., 1968.
12.
Tuyakhov V.N.
,
Myshkin K.V.
,
Sergeyko L.G.
,
Burova E.I.
The dislocation structure
of 08KP trained steel after natural and artificial strain aging.
Term. Obrab. Met. –
Temat. Otrasl. Sb.
[Heat Treat. Met. – Spec. Top. Collect.], 1977, no. 5, pp. 19–120
(in Russ.).
13.
Sokolov K.N.
,
Tuyakhov V.N.
,
Leont’ev V.A.
,
Burova E.I.
The influence of the
compression degree on the recrystallization mechanism of 08KP cold-rolled sheet
steel.
Listoprokatnoe Proizvod. – Temat. Otrasl. Sb.
[Sheet Rolling Prod. – Spec.
Top. Collect.], 1974, no. 3, pp. 50-56 (in Russ.).
14.
Deulin E.A.
,
Konovalov V.V.
,
Pustovoyt Yu.M.
,
Sergeev D.V.
,
Trifonov A.Yu.
Mechanically-stimulated dissociation of adsorbed heavy water (D
2
O) and dissolution
of deuterium in stainless steel.
Vak. Tekh. Tekhnol.
[Vac. Eng. Technol.], 2003, vol. 13,
no. 3, pp. 17–22 (in Russ.).
15.
Deulin E.A.
,
Ikonnikova E.I.
Process of hydrogen dissolution into the surfaces of
gas pipe line tubes as a result of nanoscale friction.
7th Eur. Workshop Second. Ion
Mass Spectrom.
, SIMS Europe 2010, Muenster, p. 110.
16.
The method
for determining the remaining life of main gas pipeline metal. Patent RF,
no. 2391601, 2008.
100 ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. “Машиностроение”. 2013. № 3
