Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 13. Effect of Firing Temperature on Phase Composition, Structure, and Some Properties of Materials Based on Composite Composition HCBS (Bauxite, Electrocorundum, Quartz Glass)(1)

Pivinskii Yu. E.; Perepelitsyn V. A.; Dyakin P. V.; Kolobov A. Yu.; Prokhorenkov D. S.

首页> 外文期刊>Refractories and Industrial Ceramics >Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 13. Effect of Firing Temperature on Phase Composition, Structure, and Some Properties of Materials Based on Composite Composition HCBS (Bauxite, Electrocorundum, Quartz Glass)(1)

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Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 13. Effect of Firing Temperature on Phase Composition, Structure, and Some Properties of Materials Based on Composite Composition HCBS (Bauxite, Electrocorundum, Quartz Glass)(1)

机译：基于高氧化铝HCB的制备模塑与未折叠耐火材料领域的研究。第13部分。烧制温度对基于复合组合物HCBS（铝土矿，电池，石英玻璃）的材料的相相，结构和材料的一些性能的影响

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The effect of firing temperature in the range 800 - 1640A degrees C on the change in phase composition, structure, and some properties of specimen materials prepared on the basis of composite composition HCBS is studied. Four temperature ranges are stablished by a dilatometric method with a nonisothermal heating rate of 300A degrees C/h corresponding to normal thermal expansion (up to 800A degrees C), sintering accompanied by shrinkage (800 - 1150A degrees C), mullitization accompanied by growth (1150 - 1400A degrees), and sintering of mullitized material (1400 - 1500A degrees C). A set of methods is used (XPA, dilatometric analysis, optical, and electron microscopy) to specify the phase composition and material structure in the firing temperature ranges noted. After firing at 1400 - 1640A degrees C the material contains 38 - 42% mullite, 50 - 55% corundum, and balance glass phase and titanium compounds.

机译：在基于复合组合物HCBS的基础上制备的相位成分，结构和一些性质的烧制温度在800-1640A℃的变化中的影响。四个温度范围通过膨胀法，具有300A℃/ h的非等温加热速率，对应于正常的热膨胀（高达800A℃），烧结伴随收缩（800-1150A℃），随着生长伴随的升温（ 1150 - 1400A度），以及旋转材料的烧结（1400 - 1500A C）。使用一组方法（XPA，膨胀测量分析，光学和电子显微镜），以指定注射温度范围内的相位组成和材料结构。在1400-1640A的烧制后，该材料含有38-22％的莫来石，50-55％刚玉和平衡玻璃相和钛化合物。

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来源
《Refractories and Industrial Ceramics》 |2018年第6期|共8页
作者
Pivinskii Yu. E.; Perepelitsyn V. A.; Dyakin P. V.; Kolobov A. Yu.; Prokhorenkov D. S.;
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作者单位

OOO NVF Kerambet Ogneupor St Petersburg Russia;

FGAOU VO Ural Fed Univ Ekaterinburg Russia;

FGBOU VPO St Petersburg State Technol Univ Tech Univ St Petersburg Russia;

OAO Dinur Pervouralsk Russia;

FGBOU VO VG Shukov Belgorod State Tech Univ Belgorod Russia;

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原文格式 PDF
正文语种 eng
中图分类硅酸盐工业;
关键词
Chinese bauxite; fuzed electrocorundum; quartz glass; fuzed quartz; mullite; cristobalite; corundum; thialite; wet grinding; HCBS; sintering; mullitization;

机译：中文铝土矿;石英玻璃;燃烧石英;莫来石;Cristobalite;Corundum;瞳孔;湿磨;HCB;烧结;旋转;

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1. Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 13. Effect of Firing Temperature on Phase Composition, Structure, and Some Properties of Materials Based on Composite Composition HCBS (Bauxite, Electrocorundum, Quartz Glass)(1) [J] . Pivinskii Yu. E., Perepelitsyn V. A., Dyakin P. V., Refractories and Industrial Ceramics . 2018,第6期

机译：基于高氧化铝HCB的制备模塑与未折叠耐火材料领域的研究。第13部分。烧制温度对基于复合组合物HCBS（铝土矿，电池，石英玻璃）的材料的相相，结构和材料的一些性能的影响
2. Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 10. Effect of Firing Temperature on Properties of Materials Prepared Based on Mixed Composition HCBS from Fuzed Bauxite-Corundum, Quartz Glass, and Reactive Alumina(1) [J] . Pivinskii Yu. E., Dyakin P. V., Gorokhovskii A. M., Refractories and Industrial Ceramics . 2017,第2期

机译：基于高氧化铝HCB的制备模塑与未折叠耐火材料领域的研究。第10部分燃烧温度对基于混合铝土矿 - 刚玉，石英玻璃和反应性氧化铝（1）的混合组合物HCBS制备的材料性质的影响（1）
3. Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 8. Effect of Firing Temperature on Properties of Materials Based on Mixed HCBS Composition: Bauxite, Quartz Glass, and Reactive Alumina [J] . Pivinskii Yu. E., Dyakin P. V., Kolobov A. Yu. Refractories and Industrial Ceramics . 2017,第6期

机译：基于高氧化铝HCB的制备模塑与未折叠耐火材料领域的研究。第8部分燃烧温度对基于混合HCB组成的材料性能的影响：铝土矿，石英玻璃和反应性氧化铝
4. Nanostructured Electrolytic Composites Based on Cobalt Alloys with Refractory Metals: Composition and Functional Properties [C] . Maryna Ved, T. A. Nenastina, N. D. Sakhnenko, International Conference Nanotechnology and Nanomaterials . 2021

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7. THE INVESTIGATION OF SHAPED AND NON-SHAPED REFRACTORIES FORMATION ON BASE OF HIGH-ALUMINA HCBS. PART 12. COMPOSITE HCBS (BAUXITE, ELECTROCORUNDUM, QUARTZ GLASS) AND SOME PROPERTIES OF THE MATERIALS BASED ON THEM [O] . Yu. E. Pivinskii, P. V. Dyakin, L. V. Ostryakov 2017

机译：高氧化铝HCBS基础上成形和非形状耐火材料形成的研究。第12部分。基于它们的材料复合HCB（铝土矿，电火花，石英玻璃）及材料的一些性质

Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 13. Effect of Firing Temperature on Phase Composition, Structure, and Some Properties of Materials Based on Composite Composition HCBS (Bauxite, Electrocorundum, Quartz Glass)(1)

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