Standard

Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms. / Lebedev, V. A.; Sal'nikov, V. A.; Babin, A. V. et al.
In: Rasplavy, No. 2, 1998, p. 41-46.

Research output: Contribution to journalArticlepeer-review

Harvard

Lebedev, VA, Sal'nikov, VA, Babin, AV, Zhidkov, SA & Stikhin, VF 1998, 'Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms', Rasplavy, no. 2, pp. 41-46.

APA

Lebedev, V. A., Sal'nikov, V. A., Babin, A. V., Zhidkov, S. A., & Stikhin, V. F. (1998). Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms. Rasplavy, (2), 41-46.

Vancouver

Lebedev VA, Sal'nikov VA, Babin AV, Zhidkov SA, Stikhin VF. Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms. Rasplavy. 1998;(2):41-46.

Author

Lebedev, V. A. ; Sal'nikov, V. A. ; Babin, A. V. et al. / Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms. In: Rasplavy. 1998 ; No. 2. pp. 41-46.

BibTeX

@article{d7d1a45fdbca49e2a37975dd841edaff,
title = "Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms",
abstract = "Facility for testing the high-porous ceramic membranes for metal refining is created. Air-permeability of magnesium oxide-based ceramic specimens is studied. Resistivity and polarization of the specimens, impregnated with KCl+NaCl+10 wt.% PbCl2 fused salt mixture, are measured at 700°C. The use of thin porous dielectrics in separation of liquid electrodes (lead) permits practically fully to eliminate a convection contribution of electrolyte into mass transfer.",
author = "Lebedev, {V. A.} and Sal'nikov, {V. A.} and Babin, {A. V.} and Zhidkov, {S. A.} and Stikhin, {V. F.}",
year = "1998",
language = "Русский",
pages = "41--46",
journal = "Rasplavy",
issn = "0235-0106",
publisher = "Издательство {"}Наука{"}",
number = "2",

}

RIS

TY - JOUR

T1 - Physical and chemical principles of electrorefining in melts with using porous diaphragms. I. Air penetrability and resistivity of porous diaphragms

AU - Lebedev, V. A.

AU - Sal'nikov, V. A.

AU - Babin, A. V.

AU - Zhidkov, S. A.

AU - Stikhin, V. F.

PY - 1998

Y1 - 1998

N2 - Facility for testing the high-porous ceramic membranes for metal refining is created. Air-permeability of magnesium oxide-based ceramic specimens is studied. Resistivity and polarization of the specimens, impregnated with KCl+NaCl+10 wt.% PbCl2 fused salt mixture, are measured at 700°C. The use of thin porous dielectrics in separation of liquid electrodes (lead) permits practically fully to eliminate a convection contribution of electrolyte into mass transfer.

AB - Facility for testing the high-porous ceramic membranes for metal refining is created. Air-permeability of magnesium oxide-based ceramic specimens is studied. Resistivity and polarization of the specimens, impregnated with KCl+NaCl+10 wt.% PbCl2 fused salt mixture, are measured at 700°C. The use of thin porous dielectrics in separation of liquid electrodes (lead) permits practically fully to eliminate a convection contribution of electrolyte into mass transfer.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=0032021802

M3 - Статья

SP - 41

EP - 46

JO - Rasplavy

JF - Rasplavy

SN - 0235-0106

IS - 2

ER -

ID: 52692484