The standard epoxy resin is ideally suited for beginners. It is neither too thin nor too thick and is suitable for medium-sized objects. The epoxy resin can also be used for thin layers of 1 mm. It is versatile, suitable for bookmarks, coasters, figures cast in silicone, and can also be used to cast tabletops, provided the pouring height of 2 cm is maintained.
Key features:
Recommended pouring height (at 20°C): 1 to 20 mm, pot life: approximately 55 minutes. Application examples: jewelry, coasters, trays, figures, small and medium-sized casts, and objects cast in silicone molds. Special properties: Safe for contact with food after complete curing. A mixing guide is included with the product.
Set contents: LuminaCast 4 Gem Flow epoxy resin, 18 kg (resin and hardener), 2 pairs of nitrile gloves, size L, stirring sticks, 3 pieces + instructions.
Item number | 53620149 |
Manufacturer | Dipon |
Category | Epoxy resin |
Manufacturer no. | LUC4GEMF |
Release date | 13.12.2024 |
Sales rank in Category Epoxy resin | 14 of 11 |
Colour | Transparent |
Exact colour description | Transparent |
Material group | Plastic |
Material | 18 kg (resin and hardener), 2 pairs of nitrile gloves, Epoxy resin LuminaCast 4 Gem Flow |
Max. Pouring height per process | 20 mm |
Material application | Silicone |
cure time | 0.92 h |
Country of origin | Germany |
CO₂-Emission | |
Climate contribution |
Weight | 18000 g |
Instructions for use | Important application data: - Working time (pot life) at 23°C (200 grams, 20 mm): approx. 55 min - tTmax (23°C, 200 grams, 20 mm) (time to maximum exotherm): approx. 110 min. - Mixing time: 3-4 min. + repotting and again 3-4 min. for a mixture that is as homogeneous as possible - Mixing ratio: 2:1 by weight (A+B) - Recommended casting quantity (20°C): 0.1 cm - 2.0 cm (1 - 20 mm) - Demouldable after (23°C): approx. 16 - 24 hours - Next layer castable after: approx. 10 - 12 hours at 20°C and 20 mm - Minimum mixing quantity: recommended 120 g A+B. |
GHS05 Corrosive
GHS09 Environmentally harmful
GHS07 Health hazard