Neon Phosphor
MATERIAL PERFORMANCE
Light Reactive
Printing Material
Glow in the Dark filament is developed for prints that require visibility in dark or low-light environments. It absorbs light during exposure and gradually releases it, creating a glowing effect after printing.
Light Absorption
Stores light energy
Glow Effect
Emits light in the dark.
Visual Impact
Enhanced night visibility
- • Glow in the Dark filament is designed to create prints that remain visible even after light exposure. It charges under natural or artificial light and gradually emits a glow in darker environments.
- • The material maintains stable extrusion while incorporating light-reactive properties into the print. This allows objects to retain both functional shape and visual effect without additional processes.
- • Its glowing capability makes it suitable for safety indicators, decorative items, and creative designs. The effect varies based on light exposure time and environmental conditions.
- • With its combination of usability and visual functionality, this filament is ideal for applications where visibility and design are equally important. It offers a simple way to achieve glow effects directly during printing.
Key Highlights
Light-Activated Glow
Absorbs light energy and emits a visible glow in dark conditions.
Integrated Glow Effect
Creates glowing prints without additional coatings or treatments.
Creative Visibility Output
Enhances designs with a unique nighttime visual appearance.
Functional Decorative Use
It combines visual effects with practical printing applications.
Specifications
| Available Colors | Neon Phosphor, Ion Blue, Solar Ember, Aurora Aqua, Cosmic Rose |
| Material Type | Glow Additive PLA (Phosphorescent PLA) |
| Printing Temperature | 190°C – 220°C |
| Bed Requirement | Optional (Heated bed improves adhesion) |
| Printing Characteristics | Stable extrusion with integrated light-reactive properties |
| Surface Quality | Produces a smooth finish with glowing visual effect |
| Usage Type | Suitable for decorative, safety, and visibility-based applications |