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What is the relationship between high-purity nano barium sulfate and resin materials?
- 2020-08-17-

What is the relationship between high-purity nano barium sulfate and resin materials?


High-purity nano-barium sulfate improves the physical properties of resin materials. Adding 2-5% of nanotechnology additives to resin materials is a new and crucial method to improve the physical properties of resin materials. For example, the addition of high-purity nano-barium sulfate can make the resin material have improved physical properties, higher strength and spatial reliability, improved barrier properties and conductivity. High-purity nano-barium sulfate uses cutting-edge purification processing technology and international cutting-edge production technology, and uses high-whiteness and high-content barite raw materials to do ultra-micro processing nano-technology products. The products are natural, pure, energy-saving and environmentally friendly, and are in line with international high-end brand mainstream products Development trend, after a unique post-treatment process, particles are uniform and fine, and fluidity is good; suitable as a high-quality new functional material, reducing the amount of titanium dioxide added in the formula, and has been successfully used in the production of automotive paint and modified engineering plastics. Manufacturing, after adding different proportions of high-purity nano-barium sulfate, not only the brightness of the product is improved, but the strength, product molding rigidity, and light transmittance are also relatively improved, especially in the modified engineering plastics. comfortable. High-purity nano-barium sulfate is a kind of nano-technology additive used in the promotion and application of new products in plastic nano-composites, and considering that it has a lower production cost, it shows a huge commercial vigor. The high-purity nano-barium sulfate needs to be modified by the chemical industry to do a good job of surface treatment, so the fine dispersion degree is obtained and the coupling characteristic of the resin material is maximized.