Rigid 4000 Resin
Engineering
SLA
High Strength
69 MPa
4.1 GPa
105 MPa
Select Printer Series and Resin Volume
| Bulk order quantity (L) | Discount % |
|---|---|
| 1 | 0% |
| 30 | 15% |
| 60 | 20% |
| 120 | 25% |
| 240 | 30% |
| 1,000 | 35% |
| 2,000 | 40% |
| 3,000 | 45% |
Choose Rigid 4000 Resin for stiff and strong engineering-grade prototypes, general load-bearing applications, and industrial parts that need to withstand significant load without bending.
Rigid 4000 Resin has been added to your cart.
Why Choose Rigid 4000 Resin?
Rigid 4000 Resin is a glass-filled material that has the highest tensile strength in our Engineering Resin Library.
Stiff
Resistant to deformation under a variety of forces, pressures, and torques.
High Thermal and Chemical Resistance
Withstands high temperatures and a variety of chemicals.
Precise
Produce strong, detailed, and accurate molds or models.
Smooth, Matte Finish
Deliver parts that look and feel like a finished product.
Applications
Produce stiff and strong engineering-grade prototypes that can be load-bearing.
Consider Rigid 4000 Resin for:
Material Properties*
Rigid 4000 Resin
Ultimate Tensile Strength
Tensile Modulus
Elongation
Flexural Modulus
Notched Izod
Heat Deflection Temp. @ 0.45 MPa
Thermal Expansion (0-150 °C)
* Material properties can vary with part geometry, print orientation, print settings, and temperature. Data was obtained from parts printed using Form 3, 100 μm, Rigid settings and post-cured with a Form Cure for 15 minutes at 80 °C.
Post-Processing
Washing
The foundational step in any SLA post-processing workflow is to remove any excess resin on the surface of the parts through an alcohol or ether wash.
Curing
Post-curing Engineering and Specialty Resins is essential for parts to achieve their full strength and functionality. This step completes the chemical reaction initiated during printing, transforming the part from its green state into a fully finished component.
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