Assessment of the compositions and components for obtaining foam-glass-crystalline materials from aluminosilicate initial materials
| Parent link: | Glass and Ceramics.— , 2009 Vol. 66, N 3-4.— 2009.— P. 82-85 |
|---|---|
| Hlavní autor: | |
| Další autoři: | , |
| Shrnutí: | The compositions suitable for obtaining foam-glass-crystalline materials from aluminosilicate initial materials (for the example of zeolite and greenstone) by means of a dual-stage technology at temperatures not exceeding 900°C are examined. The assessment criteria for the initial materials and compositions of the glass granulate are determined. It is shown that under the established conditions aluminosilicate initial material makes it possible to obtain foam-glass-crystalline material with density 250-350 kg/m3 and compression strength up to 2 MPa В фонде НТБ ТПУ отсутствует |
| Vydáno: |
2009
|
| Témata: | |
| Médium: | Kapitola |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=595998 |
Podobné jednotky
Using quartzofeldspathic waste to obtain foamed glass material
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2016)
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2016)
Using quartzofeldspathic waste to obtain foamed glass material
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2016)
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2016)
Prospects for use of finely disperse quartz sands in production of foam-glass crystalline materials
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2008)
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2008)
Temperature regimes for obtaining granular material for foamed crystal glass materials as a function of the batch composition
Vydáno: (2009)
Vydáno: (2009)
Mechanical performance of foam glass with nanoscale structure elements
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2012)
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2012)
Low-temperature synthesis of granular glass from mixes based on silica-alumina-containing components for obtaining foam materials
Vydáno: (2009)
Vydáno: (2009)
Foam glass material to absorb electromagnetic waves
Autor: Kaymonov M. Maxim
Vydáno: (2018)
Autor: Kaymonov M. Maxim
Vydáno: (2018)
Properties of Foam Glass Material Modified by Nanosize Zirconium Dioxide
Vydáno: (2016)
Vydáno: (2016)
The foam-glass material for a radio frequency echoless chambers
Vydáno: (2016)
Vydáno: (2016)
Assessment of quartz materials crystallinity by x-ray diffraction
Vydáno: (2016)
Vydáno: (2016)
Viscosity evaluation for glass and glass crystal compositions in their foaming temperature range
Vydáno: (2009)
Vydáno: (2009)
Glass composite modified with silicon carbide and gallium arsenide, that absorbs electromagnetic radiation
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2021)
Autor: Kazmina O. V. Olga Viktorovna
Vydáno: (2021)
Microwave Absorption Properties of Foam Glass Material Modified by Adding Ilmenite Concentrate
Vydáno: (2015)
Vydáno: (2015)
Compositions development for acid-resistant material obtaining
Autor: Adykaeva A. V.
Vydáno: (2011)
Autor: Adykaeva A. V.
Vydáno: (2011)
Radiation stability of ionic crystalline materials
Autor: Vorobyev А. А. Alexander Akimovich
Vydáno: (1977)
Autor: Vorobyev А. А. Alexander Akimovich
Vydáno: (1977)
The Study of the Dependence of Optimal Structure of Composite Materials Containing Hollow Aluminosilicate Microspheres on Humidity
Vydáno: (2021)
Vydáno: (2021)
Methods of Increasing Strength of Aluminosilicate Ceramics Based on Semi-Flint Clay Raw Materials
Autor: Vakalova T. V. Tatyana Viktorovna
Vydáno: (2017)
Autor: Vakalova T. V. Tatyana Viktorovna
Vydáno: (2017)
Electromagnetic diagnostics of composite materials
Autor: Fursa T. V. Tatyana Viktorovna
Vydáno: (2005)
Autor: Fursa T. V. Tatyana Viktorovna
Vydáno: (2005)
Porous Composite Materials Based on Liquid Glass and Natural Silicates
Autor: Vereshchagin (Vereschagin, Vereshagin) V. I. Vladimir Ivanovich
Vydáno: (2002)
Autor: Vereshchagin (Vereschagin, Vereshagin) V. I. Vladimir Ivanovich
Vydáno: (2002)
Obtaining of heteromodulus ZRC-based composite materials, their structure and properties
Autor: Mirovoy Yu. A. Yury Aleksandrovich
Vydáno: (2019)
Autor: Mirovoy Yu. A. Yury Aleksandrovich
Vydáno: (2019)
Catalysts based on foam materials for neutralization of gas emissions
Autor: Pestryakov A. N. Aleksey Nikolaevich
Vydáno: (2003)
Autor: Pestryakov A. N. Aleksey Nikolaevich
Vydáno: (2003)
Catalysts based on foam materials for neutralization of waste gases
Autor: Pestryakov A. N. Aleksey Nikolaevich
Vydáno: (2007)
Autor: Pestryakov A. N. Aleksey Nikolaevich
Vydáno: (2007)
Catalysts based on foam materials for purification of polluting emissions
Vydáno: (1995)
Vydáno: (1995)
Composite Materials design and applications
Autor: Gay D. Daniel
Vydáno: (New York, Taylor & Francis Group, 2007)
Autor: Gay D. Daniel
Vydáno: (New York, Taylor & Francis Group, 2007)
Composite Materials Reports of the first Soviet-Japanese symposium on composite materials, May 1977
Vydáno: (Moscow, University Press, 1979)
Vydáno: (Moscow, University Press, 1979)
Mechanics of Composite Materials
Autor: Kaw A. K. Autar K.
Vydáno: (Boca Raton, Taylor & Francis, 2006)
Autor: Kaw A. K. Autar K.
Vydáno: (Boca Raton, Taylor & Francis, 2006)
Obtaining of Heteromodulus ZrC-Based Composite Materials, their Structure and Properties
Autor: Mirovoy Yu. A. Yury Aleksandrovich
Vydáno: (2019)
Autor: Mirovoy Yu. A. Yury Aleksandrovich
Vydáno: (2019)
Activation of Synthesis and Sintering of Mullite Aluminosilicate Ceramics Based on Natural Raw Materials
Vydáno: (2014)
Vydáno: (2014)
Physical Characteristics of Foam Glass Modified with Zirconium Dioxide
Vydáno: (2017)
Vydáno: (2017)
Obtaining high thermally conductive materials by pressing from the granulate
Vydáno: (2015)
Vydáno: (2015)
Biofiber Reinforcement in Composite Materials
Vydáno: (Amsterdam, Elsevier, 2015)
Vydáno: (Amsterdam, Elsevier, 2015)
Residual stresses in composite materials
Vydáno: (Oxford, Woodhead Publishing Limited, 2014)
Vydáno: (Oxford, Woodhead Publishing Limited, 2014)
Obtaining Biologically Active Polypropylene Fibrous Materials
Autor: Bordunov S. V. Sergey Vladimirovich
Vydáno: (2020)
Autor: Bordunov S. V. Sergey Vladimirovich
Vydáno: (2020)
Bone substitute material on the basis of natural components
Vydáno: (2014)
Vydáno: (2014)
Composite Nonwoven Materials Structure, Properties and Applications
Vydáno: (Amsterdam, Elsevier, 2014)
Vydáno: (Amsterdam, Elsevier, 2014)
Modeling of Plastic Deformation of Crystalline Materials on the Basis of the Concept of Hardening and Recovery
Autor: Starenchenko V. A. Vladimir Aleksandrovich
Vydáno: (2015)
Autor: Starenchenko V. A. Vladimir Aleksandrovich
Vydáno: (2015)
Numerical and experimental study of the weld joints formation in welding foam materials
Vydáno: (2014)
Vydáno: (2014)
Single-stage technogy for granulated foam glass production based on the composition of tripoli and technogical microsilica
Vydáno: (2016)
Vydáno: (2016)
Composite Materials Obtained via Two-Nozzle Electrospinning from Polycarbonate and Vinylidene Fluoride/Tetrafluoroethylene Copolymer
Vydáno: (2018)
Vydáno: (2018)
Effect of thermochemical activation of clay raw materials on phase formation, microstructure and properties of aluminosilicate proppants
Vydáno: (2019)
Vydáno: (2019)