High-Temperature Synthesis of Composite Material from Al-SiO2 System Components

Rafail Apakashev; Stanislav Davydov; Niyaz Valiev

doi:10.4028/www.scientific.net/AMR.1064.58

Paper Titles

Investigation of Non-Monotonic Portions on the Temperature Dependences of High-Temperature Metal Melts’ Physical Properties
p.38

Non-Destructive Testing for the Evaluation of Pozzolanic Mortar Reinforced to Corrosion
p.42

The Abnormal Grain Growth of P/M Nickel-Base Superalloy: Strain Storage and CSL Boundaries
p.49

Main Clay Minerals and their Microscopic Morphological Characteristics in Zhangcun Illite Ores
p.55

High-Temperature Synthesis of Composite Material from Al-SiO₂ System Components
p.58

The Synthesis of TiC Powders by Carbothermal Reduction Method in Vacuum
p.62

Investigation on the Continuous Microwave Synthesis of Nano Titanium Carbide Powder
p.66

Oxidation of Cyclohexene over Mesoporous Silica Pillared Clay Incorporated with Heteropoly Acid Prepared by Sol Gel Method
p.71

2D Woven Reinforcements of Natural Fibers
p.77

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High-Temperature Synthesis of Composite Material from Al-SiO₂ System Components

Abstract:

The research involves studying the high-temperature chemical interaction of the Al-SiO₂ system components. The high-temperature interaction of molten aluminum and silicon dioxide results in formation of aluminum matrix composite material containing silicon microparticles. The predominant linear size of silicon microparticles amounts to 3 - 5 microns, their mass fraction in the composite reaches 29 %.