About an influence of the presence of defects of magnesium silicate structure on their physico-chemical and technological properties

V. N. Zyryanova, M. A. Savinkina, A. T. Logvinenko, V. I. Vereshchagin

Research output: Contribution to journalArticle

Abstract

The change of natural magnetism silicate structure after mechanical treatment is studied. Interconnection between mineral structure defectness, hydrolic activity and technical properties of composite materials produced using primary mechanically-activated materials is investigated. Production wastes comprising magnesium silicate, serpentine, diopside and dunite are under investigations. The results of investigations showed the expediency of using multitons of technological and natural magnesium silicate wastes in production of viscous and building materials of magnesium solidification. Introduction of finely ground magnesium silicate into composite materials will allow to produce minerals with high mechanical and corrosion strength. The great interest for practical use is the possibility of producing corrosion-strength composite magnesium together with magnesium silicate.

Original languageEnglish
Pages (from-to)97-105
Number of pages9
JournalFiziko-Tekhnicheskie Problemy Razrabotki Poleznykh Iskopaemykh
Issue number6
Publication statusPublished - 1992

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Silicates
defect
Magnesium
magnesium
silicate
Defects
Minerals
Composite materials
Corrosion
corrosion
Magnetism
Solidification
dunite
diopside
mineral
solidification
chemical
Florisil
material

ASJC Scopus subject areas

  • Geotechnical Engineering and Engineering Geology
  • Metals and Alloys

Cite this

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abstract = "The change of natural magnetism silicate structure after mechanical treatment is studied. Interconnection between mineral structure defectness, hydrolic activity and technical properties of composite materials produced using primary mechanically-activated materials is investigated. Production wastes comprising magnesium silicate, serpentine, diopside and dunite are under investigations. The results of investigations showed the expediency of using multitons of technological and natural magnesium silicate wastes in production of viscous and building materials of magnesium solidification. Introduction of finely ground magnesium silicate into composite materials will allow to produce minerals with high mechanical and corrosion strength. The great interest for practical use is the possibility of producing corrosion-strength composite magnesium together with magnesium silicate.",
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T1 - About an influence of the presence of defects of magnesium silicate structure on their physico-chemical and technological properties

AU - Zyryanova, V. N.

AU - Savinkina, M. A.

AU - Logvinenko, A. T.

AU - Vereshchagin, V. I.

PY - 1992

Y1 - 1992

N2 - The change of natural magnetism silicate structure after mechanical treatment is studied. Interconnection between mineral structure defectness, hydrolic activity and technical properties of composite materials produced using primary mechanically-activated materials is investigated. Production wastes comprising magnesium silicate, serpentine, diopside and dunite are under investigations. The results of investigations showed the expediency of using multitons of technological and natural magnesium silicate wastes in production of viscous and building materials of magnesium solidification. Introduction of finely ground magnesium silicate into composite materials will allow to produce minerals with high mechanical and corrosion strength. The great interest for practical use is the possibility of producing corrosion-strength composite magnesium together with magnesium silicate.

AB - The change of natural magnetism silicate structure after mechanical treatment is studied. Interconnection between mineral structure defectness, hydrolic activity and technical properties of composite materials produced using primary mechanically-activated materials is investigated. Production wastes comprising magnesium silicate, serpentine, diopside and dunite are under investigations. The results of investigations showed the expediency of using multitons of technological and natural magnesium silicate wastes in production of viscous and building materials of magnesium solidification. Introduction of finely ground magnesium silicate into composite materials will allow to produce minerals with high mechanical and corrosion strength. The great interest for practical use is the possibility of producing corrosion-strength composite magnesium together with magnesium silicate.

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