Ranbar Blue WS5030 Colorless to Blue Thermochromic Pigment Powder
Name: Thermochromic Powder
Brand: Ranbar Pigment
Model: WS-5030
Temperature Change Form: Colorless to Blue
Color Change Principle: Low-temperature colorless, high-temperature coloring
Three Color Changing Temperatures: 35°C, 40°C, 60°C
Characteristics: Bright color, fast temperature sensing speed, high sensitivity.
Use: Solvent-based paint, printing ink, plastic injection molding, injection, extrusion, etc.
Thermochromic Pigment Powder Description:
Ranbar Blue WS5030 is a type of colorless-to-blue thermochromic pigment powder. When heated, the internal structure of the material undergoes a change, resulting in a color shift. Upon cooling, the thermochromic pigment’s internal material reverts to its original structure, restoring the original color. This process is reversible and can be repeated.
Mixing thermochromic pigment of different colors in certain proportions allows for the creation of various thermochromic pigment powders in different colors, as illustrated in the following diagram:
Combining thermochromic pigment powder with regular pigment allows for the effect of color change between different colors, as shown in the diagram below:
Application Of Thermochromic Pigment Powder:
- Coating: Suitable for surface coating of various plastic products, including ABS, PE, PP, PS, PVC, EVA, and other plastic materials.
- Inks: Suitable for all kinds of printing, including screen, gravure, and letterpress printing, and can be printed on all kinds of materials, including textiles, paper, synthetic film, glass, ceramics, and wood.
- Plastic/Plastic: It can be used for injection and extrusion molding of transparent or semi-transparent plastics such as polyethylene (PE), polypropylene (PP), polystyrene (PS), soft polyvinyl chloride (S-PVC), AS and ABS. Can also be mixed with unsaturated polyester, epoxy resin, organic glass, or nylon monomer casting, molding, and curing molding.
- The design of thermochromic products is based on the demand for color change between high-temperature environments and low-temperature environments and is mostly used in human body temperature-sensitive series products and can also be used for anti-counterfeiting design.