Experimental Methods of Synthesis of Nano-/Macro Mineral Materials

Anastasia Kuzyura; Tatiana Setkova; Dmitriy Chareev; Anna Spivak; Ekaterina Kozlyakova; Valentin Osadchii; Mikhail Voronin; Evgeniy Osadchii

doi:10.4028/www.scientific.net/AMR.650.308

Paper Titles

Study of Adaptability of the Compound of Sulfonate Acid Water Reducing Agent with Ceramic Slurry Blank
p.285

A Study of Coating Surface Microstructure and Characteristics of Coated Paper Related to Binder
p.292

Low-Energy Impact Damage Mechanism Analysis of FRC Laminates
p.298

Sprayed Concrete – Possibilities of Testing Sprayed Concrete Prepared in Laboratory
p.304

Experimental Methods of Synthesis of Nano-/Macro Mineral Materials
p.308

Preparation of Magnetic Fluids Based on Associated Polymers
p.314

Evaluation of Strength Characteristics of Fibre-Cement Slab Material
p.320

Research on Friction and Wear Properties of Ti(C,N)/Fe Composites
p.326

Study of Thermal Technical Properties of Lightweight Concrete with Utilization of Non Stationary Hot-Wire Method
p.333

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 650Experimental Methods of Synthesis of Nano-/Macro...

Experimental Methods of Synthesis of Nano-/Macro Mineral Materials

Abstract:

This work is devoted to development of synthesis methods of nano- and macrofunctional materials for industry, electronics, and modern science and technology. The authors have developed advanced methods of obtaining various carbon, silicate and chalcogenide materials by melt and hydrothermal methods with using of optimized chemical and thermodynamic parameters of synthesis. As a result a new super hard material - carbonate-synthetic diamond polycrystals were obtained. Nanodiamonds were synthesized by direct conversion of graphite into diamond. New species of macro- and fine crystalline piezoelectric tourmaline containing 3d-elements were produced by hydrothermal method. Using a ﬂux technique the single crystals of different chalcogenide phase with unique superconducting properties were grown.