FORSCHER
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FORSCHER
Inorganic Pigments
Complex Inorganic Color Pigments (CICPs): Efficiency and Durability for Demanding Applications
Complex Inorganic Color Pigments (CICPs) are developed for applications that require maximum thermal stability, chemical resistance, UV protection, and infrared (IR) reflectivity. Their highly stable crystalline structure ensures exceptional durability, making them ideal for industrial coatings, engineering plastics, ceramics, enamels, and other high-performance formulations.
Versatile Applications and Customized Solutions
Combining technical performance and long-term stability, CICPs are widely used in:
✔ Industrial and architectural paints – Maximum durability and weather resistance.
✔ Engineering plastics – Thermal and chemical stability for high-performance polymers.
✔ High-temperature coatings – Suitable for mufflers, furnaces, and structures exposed to extreme heat.
✔ Ceramics and enamels – Stable and resistant pigmentation for decorative and functional finishes.
We offer complex inorganic pigments for online distribution, with specialized technical support to meet the demands of the industrial sector.
Partnership
Chemical and Thermal Stability
Produced through a high-temperature calcination process, CICPs exhibit superior resistance to acids, bases, oxidizing agents, and harsh weather conditions. They maintain their integrity even in aggressive industrial environments and high-temperature applications, such as automotive coatings, paints for metal structures, and technical ceramics.
High Opacity and Pigment Efficiency
The advanced technology of CICPs provides excellent coverage and tinting strength, allowing for a reduced amount of pigment to achieve the desired color intensity. This efficiency results in more cost-effective formulations without compromising quality.
UV Protection and Infrared (IR) Reflectivity
CICPs offer exceptional resistance to UV radiation, preventing degradation and fading in outdoor applications. Additionally, some formulations feature high IR reflectivity, reducing heat absorption on dark surfaces. This is a key factor for architectural coatings, reflective roofing, and applications aimed at optimizing thermal efficiency.
Micronized Oxide Pigments: High Performance and Efficiency for Industry
Micronized oxide pigments are developed for applications that demand optimized dispersion, superior stability, and consistent performance. With advanced deagglomeration technology, they offer easy processing, intense colors, and high efficiency—eliminating the need for media milling. They are ideal for paints, plastics, and high-performance industrial formulations.
Superior Performance and Customized Solutions
Combining quality and innovation, Forscher’s micronized oxide pigments are widely used in:
✔ Paints and coatings – Optimized dispersion, saving time and energy during processing.
✔ Engineering plastics and masterbatch – Greater stability and improved flow for high pigment loadings.
✔ High-chromaticity reds – Vibrant, clean shades ranging from salmon to deep reddish-brown.
✔ Low-viscosity yellows (LV Grades) – Enhanced dispersion and stability in both volumetric and gravimetric dosing.
✔ High jetness blacks – Easy dispersion, low dust index, and excellent color depth.
We offer micronized oxide pigments for online distribution, along with specialized technical support to meet the demands of the industrial sector.
Versatility
The enhanced stability of these pigments allows their use across various industrial segments, from decorative and industrial paints to engineering plastics and masterbatches. Their compatibility with different systems ensures flexibility in the development of new formulations.
High Performance
With intense and consistent colors, Forscher pigments ensure a uniform, high-quality finish. Their chemical and thermal resistance guarantees long-lasting durability and stability in final applications.
Process Efficiency
Advanced deagglomeration technology reduces the need for time, energy, and labor in the preparation of paints and dispersions. This makes the production process faster and more cost-effective, optimizing the performance of industrial formulations.