FDM HIPS by Stratasys is a high-impact thermoplastic polystyrene in a 3D printing filament form. It possesses similar mechanical properties to ABS, but offers much higher impact resistance and durability. It is a low-cost option for general low-requirement 3D printing applications.
- It allows easy formability which makes it easily reusable and recyclable, a beneficial feature for reducing the environmental impact of post-printed material.
- It is suitable for fast prototyping applications where multiple iterations are desired to refine design concepts.
- FDM HIPS is used in jigs, fixtures, assembly aids, and inspection tools not subjected to high loading.
Product family:
Chemical family:
Product Type:
| Bio Based content | Visible After Login |
| Appearance | Visible After Login |
Compliance
No data available
Applications
Recommended markets
Applications
Conversion mode
Availability
Product Status:Visible After Login
FDM HIPS properties
Mechanical properties
| Properties | Value & unit | Test condition | Test method |
|---|---|---|---|
| Elongation at Break | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Elongation at Break | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Elongation at Yield | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Elongation at Yield | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Modulus | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Modulus | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Peak Stress | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Peak Stress | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Strain At Yield | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Strain At Yield | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Strain at Break | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Strength | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Flexural Strength, Break | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Impact Strength, Notched | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Impact Strength, Notched | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Impact Strength, Unnotched | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Impact Strength, Unnotched | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Modulus of Elasticity | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Modulus of Elasticity | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Tensile Strength at Break | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Tensile Strength at Break | 0.0 Visible After Login | Visible After Login | Visible After Login |
Other properties
| Properties | Value & unit | Test condition | Test method |
|---|---|---|---|
| Tensile Strength at Yield | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Tensile Strength at Yield | 0.0 Visible After Login | Visible After Login | Visible After Login |
Thermal properties
| Properties | Value & unit | Test condition | Test method |
|---|---|---|---|
| Deflection Temperature at 0.46 MPa (66 psi) | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Deflection Temperature at 0.46 MPa (66 psi) | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Deflection Temperature at 1.8 MPa (264 psi) | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Deflection Temperature at 1.8 MPa (264 psi) | 0.0 Visible After Login | Visible After Login | Visible After Login |
| Glass Transition Temperature (Tg) | 0.0 Visible After Login | Visible After Login | Visible After Login |