nano titanium dioxide
The blending process is a critical step in the manufacturing, where zinc sulfide and barium sulfate are thoroughly mixed to ensure homogeneity. This is often done using specialized equipment like ball mills or attritors, which grind the particles to an ultrafine consistency, enhancing the pigment's opacity and whiteness This is often done using specialized equipment like ball mills or attritors, which grind the particles to an ultrafine consistency, enhancing the pigment's opacity and whiteness
At present, Lide powder is mainly produced in China. Most of the domestic Lide powder production is still using traditional methods. The main raw materials are zinc oxide, sulfuric acid and barium sulfide (barite and coal are produced by high temperature reduction). Zinc 45% ~ 70%. The traditional method for producing the Liede powder process is to use zinc bakelite containing more than 45% zinc as a raw material to be leached with sulfuric acid to obtain a crude zinc sulfate solution, and then to remove iron by potassium permanganate, and then replace the heavy metal with zinc powder and filter to obtain zinc sulfate. The refined liquid is further subjected to metathesis reaction, pressure filtration, calcination, rinsing, drying, and pulverization with strontium sulfide to obtain a series of different types of lindose powder containing zinc sulfide of 30% or more. The whole process is carried out in an acidic (ra<7) environment, which consumes a large amount of sulfuric acid. The sulfuric acid has strong corrosiveness and requires high production equipment. The final discharged slag is acidic slag, which brings new pollution to the environment. High requirements, high production costs, and poor quality of the products obtained.
Lithopone B311 Datasheet
The global demand for Lithopone B311 powder continues to grow, driven by the expansion of end-use industries, particularly construction and automotive. With the increasing focus on energy efficiency and lightweight materials, the use of Lithopone B311 powder in coatings for buildings and vehicles is expected to surge.
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2025-08-14 05:36
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The FDA and certain others say titanium dioxide is safe to use in foods and personal care products. The FDA provides strict guidelines on how much can be used in food. The limit is very small: no more than 1% titanium dioxide.
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2025-08-14 04:57
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Iron oxide pigments, with their wide range of hues, from deep reds to earthy yellows and browns, offer a palette of possibilities for manufacturers seeking durable and cost-effective color solutions. They are highly resistant to heat, light, and chemical degradation, making them ideal for outdoor applications, such as architectural coatings, road markings, and concrete products.
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2025-08-14 04:55
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PRINCIPALES UTILISATIONS
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2025-08-14 04:15
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Moreover, the R&D wings of these factories are at the forefront of scientific discovery
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2025-08-14 04:00
1971
The FDA and certain others say titanium dioxide is safe to use in foods and personal care products. The FDA provides strict guidelines on how much can be used in food. The limit is very small: no more than 1% titanium dioxide.
Iron oxide pigments, with their wide range of hues, from deep reds to earthy yellows and browns, offer a palette of possibilities for manufacturers seeking durable and cost-effective color solutions. They are highly resistant to heat, light, and chemical degradation, making them ideal for outdoor applications, such as architectural coatings, road markings, and concrete products.
PRINCIPALES UTILISATIONS
Moreover, the R&D wings of these factories are at the forefront of scientific discovery
But that depends on how titanium dioxide is being used and how you might come into contact with it. The International Agency for Research on Cancer (IARC) has classified titanium dioxide as possibly carcinogenic to humans based on studies that showed more lung tumors in rats associated with breathing in titanium dioxide.
