Preparation method for chrome-cobalt composite oxide nanofiber mixing with rear earth

Abstract

The invention provides a preparation method for chrome-cobalt composite oxide nanofiber mixing with rear earth. The preparation method for the chrome-cobalt composite oxide nanofiber mixing with the rear earth comprises the steps that 1 PVA, PVP, chromic salt, cobalt salt and nitric acid rear earth salt are dispersed into organic solvent, and transparent and uniform nanofiber spinning solution is formed; 2 electrostatic spinning, high-temperature calcining and breaking sieving are conducted on the nanofiber spinning solution to obtain chrome-cobalt composite oxide nanofiber mixing with the rear earth. The chrome-cobalt composite oxide nanofiber mixing with rear earth ion prepared by the preparation method for the chrome-cobalt composite oxide nanofiber mixing with the rear earth has the advantages that an excellent high-temperature resistance property and awater-resistance property are possessed, a layer of mixing coating of C, H and O element is formed on the surface to enable the combining state of the nanofiber and the resin to be excellent, due to the generation of split and formation of energy level, a comparatively strong near infrared reflective ability is presented, and the nanofiber can serve as special filler and pigment for anti-near infrared camouflage coating.

Description

technical field [0001] The invention belongs to the field of nanometer materials, in particular to a method for preparing rare earth-doped chromium-cobalt composite oxide nanofibers. Background technique [0002] Anti-near-infrared camouflage coating is mainly developed for the detection capability of modern optical reconnaissance equipment in the wavelength range of 380nm to 1100nm. It is a coating that can simulate the optical performance of camouflaged targets and background environments, thereby reducing the detectability of camouflaged targets. With the modernization of weapons and equipment and the development and improvement of near-infrared reconnaissance equipment, the threat of near-infrared reconnaissance to camouflaged targets is increasing. At present, the armies of most countries are equipped with various near-infrared reconnaissance equipment to varying degrees, such as intensifiers, starlight mirrors, infrared night vision devices, night vision goggles and ot...

AI Technical Summary

Problems solved by technology

Generally, nanomaterials require high production process and high production cost, while the production process of nanofibers is relatively simple and low in production cost, and there is no report on the use of metal oxide nanofibers in anti-near-infrared camouflage coatings.