Add to ORKGThis paper considers the technique of obtaining boride-containing nanostructured composite materials by the method of self-propagating high-temperature synthesis (SHS). It is shown that the selection of regimes and con-ditions of reactions allows receiving materials on the basis of titanium and chromium borides as well as alumi-num oxide with finely dispersed structure and high mechanical properties
Borides are important compounds in the materials chemistry world due to their interesting properties...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Metal borides are widely used as heat-insulating materials, however, the range of their application ...
A promising way to synthesize new energy materials based on refactory inorganic compounds is self-pr...
Borides and carbides attract the attention of developers of heat-resistant and super hard structural...
Researched microstructure, phase composition and heat resistance of materials based on Ti3SiC2 nanol...
In this work, we present a new method of heat treatment to change structure and properties of boron ...
The paper presents results of the investigations in respect of nano-structured composite creation on...
This paper introduces principle possibility of producing aluminum and titanium boride predetermined ...
The formation of boron containing materials using a variety of methods was explored. The pyrolysis o...
The aim of the work is the synthesis and study of composite structures of master-alloy for aluminum ...
Self-propagating high-temperature synthesis method can be used for producing aluminum and boron carb...
A time-resolved X-ray diffraction study during the formation of a zirconium diboride (ZrB2) - alumin...
Metal borides are widely used as heat-insulating materials, however, the range of their application ...
A simple method to obtain a highly refractory HfB2-based ceramic nano-composite is presented. The bo...
Borides are important compounds in the materials chemistry world due to their interesting properties...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Metal borides are widely used as heat-insulating materials, however, the range of their application ...
A promising way to synthesize new energy materials based on refactory inorganic compounds is self-pr...
Borides and carbides attract the attention of developers of heat-resistant and super hard structural...
Researched microstructure, phase composition and heat resistance of materials based on Ti3SiC2 nanol...
In this work, we present a new method of heat treatment to change structure and properties of boron ...
The paper presents results of the investigations in respect of nano-structured composite creation on...
This paper introduces principle possibility of producing aluminum and titanium boride predetermined ...
The formation of boron containing materials using a variety of methods was explored. The pyrolysis o...
The aim of the work is the synthesis and study of composite structures of master-alloy for aluminum ...
Self-propagating high-temperature synthesis method can be used for producing aluminum and boron carb...
A time-resolved X-ray diffraction study during the formation of a zirconium diboride (ZrB2) - alumin...
Metal borides are widely used as heat-insulating materials, however, the range of their application ...
A simple method to obtain a highly refractory HfB2-based ceramic nano-composite is presented. The bo...
Borides are important compounds in the materials chemistry world due to their interesting properties...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Metal borides are widely used as heat-insulating materials, however, the range of their application ...