Phrozen EL400 Elastomer Resin
Product Description
High Elasticity
With a high 391% elongation at break, EL400 combines rubber-like elasticity and hardness, offering excellent flexibility and stability to realize innovative designs.
Excellent Resilience and Reboundability
The EL400’s 50–55% Bayshore rebound rate* makes returning to its original shape after deformation seamless. Excellent for durable prototypes for long-term testing and repeated use.
Applications
Excellent for products with high-durability needs, such as bicycle seats and shoe cushions, it maintains optimum performance under repeated bending and tearing conditions, allowing for long-term use and reliability.
Robust Performance for Industry Standards
Developed as high-performance material with excellent elasticity and tear-resistant properties, models printed with EL400 are suitable even for industrial processes, resulting in a great material alternative to foam and TPU.
Parameters | Recommended Settings |
---|---|
Layer thickness | 100 μm |
Wall thickness | ≥ 1.5 mm |
Lifting speed | 120 - 150 mm/min |
Support thickness | 1.0 mm or ≥ 1.2 mm |
**Note:
1. To reduce deformation, printing directly on the building plate is recommended. If the model needs to be supported, please refer to point 2.
2. If the gaps between supports or within the model structure are too narrow, the resin may not cure properly and solidify in those areas.
3. When printing, reducing lifting and return speed while increasing the rest time is recommended for a successful print. Please adjust the return speed according to the model type.
4. Thermal post-curing can help improve the mechanical properties of the material, especially the tensile and tear strength, but may reduce ductility.:
1. To reduce deformation, printing directly on the building plate is recommended. If the model needs to be supported, please refer to point 2.
2. If the gaps between supports or within the model structure are too narrow, the resin may not cure properly and solidify in those areas.
3. When printing, reducing lifting and return speed while increasing the rest time is recommended for a successful print. Please adjust the return speed according to the model type.
4. Thermal post-curing can help improve the mechanical properties of the material, especially the tensile and tear strength, but may reduce ductility.
