FEP film for Anycubic Photon Mono, Mono 4K, Photon Ultra, Photon D2, 2 pcs.
Availability: within 3 business days
The 150 µm FEP film is a key component of any resin printer. It is responsible for transmitting UV radiation to the resin tank, enabling precise curing layer by layer. Thanks to its high transparency and smooth, non-stick surface, it significantly improves print quality and makes it easier to remove prints after the process is complete.
*The photo is for illustrative purposes only and may not represent the actual product.
€10.00 incl. VAT 23%
FEP film for Anycubic Photon Mono, Mono 4K, Photon Ultra, Photon D2, 2 pcs. - Specification
Printer size: < 200x200x200mmBrands: 3DpartnershopSpecifications: FEP film for Anycubic Photon Mono, Mono 4K, Photon Ultra, Photon D2, 2 pcs.
Technical data
- Manufacturer: 3DPartnershop
- Material: FEP (Fluorinated Ethylene Propylene)
- Thickness: 0.15 mm (150 µm)
- Sheet dimensions: 140 × 200 mm
- Thermal resistance: up to 204 °C
- UV transmittance: ~95%
- Refractive index: low
- Surface: smooth, non-stick
- Transport protection: double-sided protective film
- Packaging: protective tube
- Quantity in set: 2 pieces
150 µm FEP film for Photon Mono, Mono 4K, Photon Ultra, Photon D2 – 1 piece
The 150 µm FEP film from 3DPartnershop is a reliable consumable for 3D printers using UV LCD technology. The product has been designed for users of Anycubic Photon Mono printers and compatible devices with an 8.9″ screen. Each film is packed in a secure protective tube that effectively protects it during transport and storage. The double-sided protective film protects the work surface from damage and dirt.
Application
The 150µm FEP film is a key component of any resin printer. It is responsible for transmitting UV radiation to the resin tank, enabling precise layer-by-layer curing. Thanks to its high transparency and smooth, non-stick surface, it significantly improves print quality and makes it easier to peel off after the process is complete.
*The photo is for illustrative purposes only and may not represent the actual product.
