eSUN PLA-LW

Brand: eSUN
Product Code: PRM-16621
Availability: 4-7 business days
Planuojama gavimo data po užsakymo: 2025-05-19
45.90€
Ex Tax: 37.93€

Qty

Lightweight Material with High Expansion

The active foaming technology in ePLA-LW significantly reduces material density while maintaining structural integrity. With a maximum foaming ratio of 220%, a single roll of ePLA-LW is equivalent to 2.2 rolls of standard PLA. The material’s density is only 0.54g/cm³, making it ideal for lightweight applications like model airplanes and drones.

Smooth & Reliable Printing Experience

This filament is designed for smooth and trouble-free printing. It undergoes strict mechanical winding and manual inspection to ensure tangle-free operation. The filament feeds consistently without clogging the nozzle or extruder, reducing the risk of breakage or warping. It also has a high success rate for large-scale prints without requiring a controlled temperature environment.

Great for Painting & Customization

ePLA-LW is highly receptive to paint, ensuring strong surface adhesion for detailed finishes. This makes it an excellent choice for projects requiring customization, such as RC planes, drone parts, and cosplay accessories.

Strong Layer Bonding & Matte Finish

Unlike wood-based PLA, ePLA-LW offers more stable interlayer adhesion. The foaming rate and material strength can be adjusted by varying the printing temperature between 210°C and 270°C. The final print has a delicate matte texture, is explosion-resistant, and is easy to repair.

Optimized for Ultralight Prints

When heated between 210°C and 270°C, ePLA-LW starts foaming, increasing its volume by approximately 1.2 times. This allows for a reduced extrusion rate of around 45%, helping create ultra-lightweight parts. In RC planes, lower weight improves flight performance by reducing wing load and stall speed, resulting in better overall aerodynamics.

With its combination of lightweight properties, strong adhesion, and easy finishing, eSUN PLA-LW is a reliable choice for high-performance applications where weight reduction is crucial.