Thermochromic Liquid Ink
Black-Pink 95°F (35°C) - Low viscosity formula for airbrushing and painting
High quality NON-TOXIC reversible cold & hot reactive ink
Black-Pink 95°F (35°C)
⚠️ Temperature Note: Due to higher outside temperature in summer, you may receive the ink in pink color. Place the container in a refrigerator to turn the ink's color back to black.
- The airbrushed object may change color with hand touch if the ambient temperature is no more than 4-5 degrees below 95°F (33°C). The color would be easy changed with rubbing to create heat or blowing hot air with a hairdryer
- Could be airbrushed or painted on Paper, Canvas, Ceramic, Plastic, Metal, Wood, Glass and many more surfaces
- High quality NON-TOXIC product
How Thermochromic Liquid Ink Works
🌡️ Higher Temperature Activation
Changes from black to pink at 95°F (35°C), ideal for very hot climates and requires significant heat to activate.
💨 Low Viscosity Formula
Specially formulated for airbrushing and smooth application on multiple surfaces including paper, canvas, ceramic, and more.
🔄 Reversible Technology
Returns to original black color when cooled below activation temperature for unlimited color transitions.
🎨 Versatile Application
Works on paper, canvas, ceramic, plastic, metal, wood, glass, and many other surfaces for diverse creative projects.
Applications & Uses
🎨 Airbrush Art
Professional airbrushing on various surfaces
💨 Hairdryer Art
Perfect for heat gun and hairdryer effects
📚 Educational Tools
Science demonstrations and learning materials
🔥 Heat-Activated Displays
High temperature interactive applications
🎭 Stage Design
Special effects and theatrical applications
🖼️ Canvas Art
Dynamic artwork with heat-sensitive elements
You Might Be Interested In:
Stay Connected for Daily Tips and Creative Ideas
Follow us on social media for the latest updates, tutorials, and creative projects!
Legal Policy
Atlanta Chemical Engineering LLC respects your privacy and does NOT sell, rent or loan any identifiable information transmitted by our customers. Read more...