| Category | Property | Value / Specification |
|---|---|---|
| Physical Characteristics (Liquid State) | Appearance | White Liquid |
| Density | 1.10 g/cm³ @25°C | |
| Viscosity | 450 CPS @25°C | |
| Molding Performance A (Green Body – Uncured) @355nm Light Source @330mW Power @5.0m/s Scan Speed @No Post-Curing | Flexural Modulus | 1500 ~ 1700 MPa |
| Flexural Strength | 55 ~ 60 MPa | |
| Notched Impact Strength | 60 ~ 68 J/m | |
| Molding Performance B (Cured Part) @90min UV Mercury Lamp Curing | Flexural Modulus | 2688 ~ 2790 MPa |
| Flexural Strength | 66 ~ 73 MPa | |
| Notched Impact Strength | 60 ~ 68 J/m | |
| Hardness | 88 | |
| Elongation at Break | 10 ~ 15% |
> Please note: Specifications are subject to change without notice. Contact a Forgecise representative for the most current technical data.
Forgecise Fine White ZR680 SLA Resin is a premium photopolymer formulation designed specifically for demanding industrial environments where standard resins fail due to brittleness. Unlike consumer-grade materials, Forgecise delivers a unique balance of rigidity and toughness, making it the optimal choice for functional prototyping, snap-fit assemblies, jigs, fixtures, and low-volume end-use production.
Validated for 355nm light sources, this resin ensures consistent layer adhesion and mechanical isotropy, critical for parts subjected to mechanical stress or thermal cycling. With a cured Notched Impact Strength of up to 68 J/m and Elongation at Break of 15%, Forgecise enables the production of durable white components that withstand drop tests and assembly forces without cracking.
Consistent Batch Quality: Manufactured under strict QC protocols to ensure density (1.10 g/cm³) and curing performance remain consistent across large-volume orders.
Superior Impact Resistance: Achieves 60–68 J/m notched impact strength (Izod), significantly outperforming standard rigid resins in shock absorption applications.
Controlled Ductility: Features 10–15% elongation at break, allowing for flexible hinges and snap-fit connections that do not fracture during repeated assembly/disassembly.
High Structural Integrity: Post-cured parts exhibit a Flexural Strength of 66–73 MPa and a Flexural Modulus of ~2700 MPa, providing the stiffness required for load-bearing components.
Process Stability: Optimized viscosity (450 CPS @ 25°C) ensures smooth recoating at high scan speeds (5.0 m/s), minimizing print failures and maximizing throughput in production environments.
