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Light Transmittance: 100 μm refers to the film's thickness (100 micrometers, equivalent to 0.1 millimeters). This thickness allows for a high light transmittance of 96% percentage. This high light transmission ensures that enough ultraviolet (UV) light from the LCD or DLP projector can pass through the film and properly cure the resin layers during the 3D printing process.
Yaxing provides a specific tensile strength value (±19.5MPa)
working temperature: -200°C to +200°C [ -328°F to 392°F ]
3D Printer Applications: This type of FEP film is specifically designed for use in vat polymerization 3D printers that use LCD or DLP technology. In these printers, a light source (projector) shines a digital image through the FEP film onto a vat of liquid resin. The light selectively cures the resin layer-by-layer, building the 3D object.
Material: FEP (Fluorinated Ethylene Propylene) is a type of fluoropolymer known for its properties, including:
High Transparency: FEP allows for good light transmission, which is crucial for the proper curing of resin in 3D printing.
Non-Stick: FEP's non-stick surface ensures easy release of the printed object after curing.
Chemical Resistance: FEP is resistant to resins used in 3D printing, preventing degradation.
Benefits of 100 μm Light Transmittance FEP film:
High Print Quality: High light transmittance ensures proper curing of resin layers, to better print quality with good resolution and detail.
Fast Printing Speeds: High-light transmission allows for faster curing times, potentially enabling faster printing speeds.
Compatibility: This film thickness is compatible with a wide range of LCD and DLP 3D printers.
Easy Release: The non-stick surface of FEP film facilitates easy removal of the printed object from the build platform.
