Rheological Properties of Ceramic Bodies and the Physical-Mechanical Indices of Acid-Resistant Materials Based on Nano-Technogenic Wastes from Petroleum Chemistry and Non-Ferrous Metallurgy and on Pyrophyllite

Kairakbaev A. K.; Abdrakhimov V. Z.

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Rheological Properties of Ceramic Bodies and the Physical-Mechanical Indices of Acid-Resistant Materials Based on Nano-Technogenic Wastes from Petroleum Chemistry and Non-Ferrous Metallurgy and on Pyrophyllite

机译：基于纳米型储存的纳米型碳酸盐和非金属冶金和纤维素脂肪储量的陶瓷体和耐酸材料物理机械索引的流变性能

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It is shown that the amount of aluminum-containing nanotechnogenic raw material based on non-ferrous metallurgy and pyrophyllite has a large effect on the structure and rheological properties of ceramic bodies in the production of acid-resistant materials. The use of nanotechnogenic raw material increases the physical and mechanical properties of ceramics for acid-resistant materials. Studies have shown that the presence of pores with isometric shape and oval closed porosity, unlike elongated (slit-shaped) pores, in ceramic materials impart mechanical strength to them.

机译：结果表明，基于有色金属冶金和纤维素溶解的含铝纳米技术原料的量对耐酸材料生产中陶瓷体的结构和流变性质具有很大的影响。纳米技术原料的使用增加了耐酸材料陶瓷的物理和力学性能。研究表明，与等距形状和椭圆形闭合孔隙率的孔的存在，与细长（狭缝形）的孔隙，陶瓷材料赋予它们。

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来源
《Glass and ceramics》 |2018年第8期|共6页
作者
Kairakbaev A. K.; Abdrakhimov V. Z.;
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作者单位

S Baishev Aktyubinskii Univ Tekhnopk Zerek LLC Aktobe Kazakhstan;

Samara State Econ Univ Samara Russia;

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原文格式 PDF
正文语种 eng
中图分类玻璃工业;
关键词
nanotechnogenic raw material; pyrophyllite; acid-resisting materials; structural-rheological properties; ultimate strength; moisture content; molding;

机译：纳米技术原料;纤维素;抗酸材料;结构流变性质;极限强度;水分含量;成型;

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1. Rheological Properties of Ceramic Bodies and the Physical-Mechanical Indices of Acid-Resistant Materials Based on Nano-Technogenic Wastes from Petroleum Chemistry and Non-Ferrous Metallurgy and on Pyrophyllite [J] . Kairakbaev A. K., Abdrakhimov V. Z. Glass and ceramics . 2018,第7a8期

机译：基于纳米型储存的纳米型碳酸盐和非金属冶金和纤维素脂肪储量的陶瓷体和耐酸材料物理机械索引的流变性能
2. Linear Thermal Expansion Coefficient of Ceramic Material Based on Non-Ferrous Metallurgy Wastes and Glaze and its Formation Mechanism During Firing [J] . Kairakbaev A. K., Abdrakhimova E. S., Abdrakhimov V. Z. Glass and ceramics . 2020,第9a10期

机译：基于有色金属冶金废物和釉料的陶瓷材料线性热膨胀系数及其在烧制过程中的形成机制
3. Study of Acid-Resistant Material Properties Based on Noferrous Metallurgy Waste Using Regresssion Analysis [J] . Abdrakhimova E. S. Refractories and Industrial Ceramics . 2016,第5期

机译：基于回归分析的有色金属废料耐酸材料性能研究
4. Prospects for the Development of Building Ceramics, Based on Stale Slags from the Non-Ferrous Metallurgy of Orenburg [C] . Victoria A. Gurieva, Anastasia A. Ilyina International Conference on Industrial Engineering . 2020

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5. Expert system based approach for material selection of automobile body-in-white structural panels using numerical ranking and sustainability indices. [D] . Mayyas, Ahmad T. 2012

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6. Incorporation of Hydroxyapatite into Glass Ionomer Cement (GIC) Formulated Based on Alumino-Silicate-Fluoride Glass Ceramics from Waste Materials [O] . Wan Nurshamimi Wan Jusoh, Khamirul Amin Matori, Mohd Hafiz Mohd Zaid, 2021

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7. Specific utilization methods of high-melting wastes from the enterprises of chemistry and non-ferrous metallurgy [O] . Aleksey Khlystov, Vladimir Shirokov, Elena Vlasova 2018

机译：从化学企业和有色金属冶金企业的高熔废物的具体利用方法
8. Chemistry, waste form development, and properties of the Nitrate to Ammonia and Ceramic (NAC) process [R] . Mattus, A. J. , Lee, D. D. , Youngblood, E. L. , 1994

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Rheological Properties of Ceramic Bodies and the Physical-Mechanical Indices of Acid-Resistant Materials Based on Nano-Technogenic Wastes from Petroleum Chemistry and Non-Ferrous Metallurgy and on Pyrophyllite

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