Multiples cheaper to 10%
Flex, Resin
Resin for 3D printer BASF ULTRACUR FL 60, 1 kg
Availability:
Out of stock
EAN: 4065343000465
SKU: 300046
Applications
- Flexible prototypes: Ideal for creating prototypes that require flexibility and durability.
- Footwear applications: Suitable for manufacturing flexible footwear components that require both comfort and durability.
- Cushioning and lattice structures: Excellent for applications requiring soft, cushioning materials that provide comfort and protection.
€92.62 incl. VAT 23%
Out of stock
Resin for 3D printer BASF ULTRACUR FL 60, 1 kg - Specification
Net weight: 1kgPrinting Technology: DLPPrinting Technology: LCDResolution: 4KResin type: FlexibleBrands: BASFColor: ClearHardness: 60 AResin for ULTRACUR FL 60 3D printer, 1 kg
Technical data
- Appearance: Transparent
- Viscosity (30°C): 450 mPas
- Tensile strength: 4 MPa
- Elongation at break: 84%
- Tear strength: 13 kN/m
- Rebound elasticity: 15-17%
- Shore hardness: 60 A
Resin for ULTRACUR FL 60 3D printer, 1 kg
BASF Ultracur3D FL 60 is a high-quality, flexible resin designed for 3D printing applications that require exceptional flexibility and durability. With a Shore A hardness of 60, this resin provides a soft, rubbery texture, making it ideal for producing parts that require significant flexibility and elasticity.
Key features
- Exceptional flexibility: With a Shore A hardness of 60, Ultracur3D FL 60 provides a soft and flexible material suitable for a variety of applications requiring a delicate touch and flexibility.
- High tear strength: It exhibits a tear strength of 13 kN/m, ensuring durability and resistance to tearing under stress.
- Good elongation at break: It exhibits an elongation at break of approximately 84%, allowing the material to stretch significantly before breaking, which is essential in applications involving repeated bending or flexing.
- Low viscosity: With a viscosity of 450 mPas at 30°C, it ensures a smooth printing process and compatibility with various 3D printers.
- Energy damping: Provides reliable energy return, ensuring that printed parts retain their shape and functionality after deformation.
