Sunlight Sensitive Coating Dye For Photochromic Lenses - photochromic pigment – Topwell
Sunlight Sensitive Coating Dye For Photochromic Lenses - photochromic pigment – Topwell Detail:
Applications:
The product can be used in a variety of applications, including coatings, printing, and plastic injection molding. Due to the flexibility of photochromic powder, it can be applied to a range of substrates, such as ceramics, glass, wood, paper, board, metal, plastic and fabric.
These color changing powders can be used for silk screen printing, gravure printing and flexo printing. They can also be used for plastic injection conforming to PU, PE, PVC, PS and PP. If the temperature does not exceed 230 degrees Celsius, the heating time can be less than 10 minutes. If the temperature exceeds 75 degrees Celsius, please avoid prolonged exposure to temperature.
The photochromic pigment contains a microencapsulated photochromic dye. Photochromic dyes are encapsulated in synthetic resins to provide additional stability and protection from the additional additives and chemicals used in the manufacture of coatings and plastics.
Available Colors:
Rose Violet
Peach Red
Yellow
Marine Blue
Orange Red
Garnet Red
Carmine Red
Wine Red
Lake Blue
Violet
Grey
Green
Product detail pictures:
Related Product Guide:
Our staff through skilled training. Skilled skilled knowledge, potent sense of company, to satisfy the provider requirements of consumers for Sunlight Sensitive Coating Dye For Photochromic Lenses - photochromic pigment – Topwell , The product will supply to all over the world, such as: New Orleans, Cairo, Albania, Our production have been exported to more than 30 countries and regions as first hand source with lowest price. We sincerely welcome customers from both at home and abroad to come to negotiate business with us.
By Andrew Forrest from Sudan - 2017.12.02 14:11
High production efficiency and good product quality, fast delivery and completed after-sale protection, a right choice, a best choice.
By Lillian from Morocco - 2017.03.07 13:42