Development of a new lining material with high chemical and deformation resistance based on vermiculite is described. Properties of the objects obtained are provided that are not surpassed by overseas analogs. This achievement is due to the use of a rational combination of raw material properties and technology regime parameters. In efficiency, material based on vermiculite may replace diatomite materials used traditionally. Use of objects based on vermiculite, having a density lower by a factor of three and lower thermal conductivity by a factor of six instead of traditional heat insulation material, i.e. chamotte, opens the possibility of a reduction in material content. The higher deformation resistance of the material promotes an increase in electrolyzer service life. Therefore, objects based on vermiculite may be used successfully for heat insulation not only in non-ferrous metallurgy installations, but also in thermal power engineering equipment, and in the construction of objects for industrial and domestic purposes.
The article considers the effect of ultrasonic exposure after the ion implantation of titanium alloys VT1-0 and VT6 silver on the thickness of the ion-leged layer, the distribution of silver by the thickness of this layer and the scalar density of dislocations in the subsurface layer. It has been established that for the alloy VT6 at the same parameters of the implantation regime there is a deeper penetration of silver ions compared to the alloy VT1-0. Directly under the ion-leged layer is formed a layer with an increased rocky density of dislocations. The ultrasonic treatment of the implanted layer on the alloys studied contributed to the deeper penetration of silver ions and the alignment of its concentration by the thickness of the surface layer of titanium alloys.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.