Then, he saw it.
A unique challenge in powder coating is the variety of textures available, which cannot be fully captured by a standard visual color code. The Nerolac Shade Card PDF addresses this by documenting various finishes—Smooth, Semi-Textured, Textured, Matt, and High Gloss. While a digital screen cannot replicate the tactile feel of a texture, the PDF serves as a crucial reference guide. It often includes descriptions and codes that specify the gloss levels and texture types. This ensures that an OEM ordering a "textured black" for an automotive component knows exactly which product code to specify, minimizing the risk of errors that could arise from ambiguous descriptions.
To help give you the exact document or technical details you need, could you share the you are coating (e.g., appliances, architectural aluminum, auto parts) and whether you need to match a specific color standard like RAL ? Share public link
A micro-texture offering a premium, anti-glare finish. nerolac powder coating shade card pdf
: Achieves a thickness of 50–60 microns in a single pass, providing a tougher finish than traditional liquid paint. Consistency
Rough, tactile finishes that excel at hiding welding marks, scratches, and metal defects.
: Deep Blue (9000241), Oxford Blue (9000934), and specialized shades like Pepsi Blue or Ultra Blue in structured finishes. Then, he saw it
: Digital PDFs can shift colors depending on screen calibration. Always verify with a physical metal panel before ordering bulk powder.
: Powder coatings have near-zero VOC (Volatile Organic Compound) emissions and overspray can be reclaimed for nearly 100% material usage. One-Coat Durability
When browsing the Nerolac shade card PDF, keep these selection criteria in mind: While a digital screen cannot replicate the tactile
When it comes to industrial finishing and architectural metal protection, stands as a titan in the Indian coatings industry. As a part of the Kansai Nerolac group, they have pioneered high-durability powder coating solutions for everything from aluminum facades to automotive parts.
Standard usage is typically 50–60 microns .