High-temperature iron oxide pigment is a type of inorganic pigment that is widely used in various industries due to its excellent high-temperature resistance and color stability.
The pigment is commonly used in the coloring of plastics, rubber, ceramics, and building materials, as well as in the production of high-temperature coatings and high-temperature resistant fibers.
One of the key characteristics of high-temperature iron oxide pigment is its ability to maintain color stability and integrity even under extreme heat conditions, making it an ideal choice for applications that require resistance to high temperatures.
The high-temperature iron oxide pigment has a density of around 1.2%, which contributes to its excellent dispersibility and compatibility with different materials, ensuring uniform coloration and high-quality finishes.
In addition to its high-temperature resistance, the pigment also offers good lightfastness, weather resistance, and chemical resistance, making it suitable for outdoor applications and harsh environments.
The production process of high-temperature iron oxide pigment involves the calcination of iron compounds at high temperatures, resulting in the formation of stable crystalline structures that contribute to the pigment’s heat resistance and color properties.
The pigment is available in various colors, including red, yellow, brown, and black, offering a wide range of options for different applications and design requirements.
In the plastics industry, high-temperature iron oxide pigment is used for coloring various plastic products, including PVC, PE, and PP, providing vibrant and durable coloration for plastic goods.
For rubber products, the pigment is used to impart color and enhance the heat resistance and durability of rubber materials, ensuring long-lasting and visually appealing rubber goods.
In the ceramics industry, high-temperature iron oxide pigment is utilized for glazing and coloring ceramic products, such as tiles, tableware, and sanitaryware, adding aesthetic value and thermal stability to ceramic items.
The use of high-temperature iron oxide pigment in building materials, such as concrete, mortar, and bricks, enhances the UV resistance, weatherability, and heat resistance of the materials, resulting in durable and aesthetically pleasing architectural elements.
High-temperature iron oxide pigment is also widely employed in the production of high-temperature coatings, such as heat-resistant paints and protective coatings, providing both decorative and functional benefits for surfaces exposed to high temperatures.
In the field of high-temperature resistant fibers, the pigment is used for coloring and enhancing the thermal stability and chemical resistance of fibers, contributing to the production of high-performance and long-lasting textile materials.
The application of high-temperature iron oxide pigment in various industries is supported by its compliance with regulatory standards and environmental requirements, ensuring its safety and sustainability in different applications.
With its versatility, durability, and high-temperature resistance, high-temperature iron oxide pigment continues to be a preferred choice for manufacturers and designers seeking reliable and long-lasting color solutions in challenging environments.
In summary, high-temperature iron oxide pigment offers exceptional color stability, high-temperature resistance, and durability, making it a valuable component in a wide range of industries and applications.