| About |
|---|
| Production-Grade Thermoplastic for Fortus 3D Production Systems ULTEM 9085 is a flame retardant high performance thermoplastic for direct digital manufacturing and rapid prototyping. It is ideal for the transportation industry due to its high strength-to-weight ratio and its FST (flame, smoke, and toxicity) rating. This unique material’s preexisting certifications make it an excellent choice for the commercial transportation industry – especially aerospace, marine and ground vehicles. Combined with a Fortus® 3D Production System, ULTEM 9085 allows design and manufacturing engineers to produce fully functional parts that are ideal for advanced functional prototypes or end use without the cost or lead time of traditional tooling.&& |
| Product Description | |
|---|---|
| Generic | Polyetherimide |
| Material Status | Commercial: Active |
| Features | Good Rigidity,High impact resistance,Good disinfection,Flame Characteristics,High Heat Resistance,Durability,Solvent resistance,V-0 |
| Availabilitys | Africa & Middle East ,North America,Latin America,Asia Pacific,Europe |
| Technical Data | |||
|---|---|---|---|
| PHYSICAL | Nominal value | Unit | Test method |
| Density | 1.34 | g/cm³ | ASTM D792 |
| Thickness(Layer Capability) | 254.0 to 330.2 | µm | |
| MECHANICAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Tensile modulus | |||
| 3.18 mm | 2220 | MPa | ASTM D638 |
| tensile strength | |||
| 3.18 mm | 71.7 | MPa | ASTM D638 |
| Tensile strain | |||
| Fracture, 3.18 mm | 6.0 | % | ASTM D638 |
| Bending modulus | 2500 | MPa | ASTM D790 |
| bending strength | 115 | MPa | ASTM D790 |
| Compression modulus | 1930 | MPa | ASTM D732 |
| compressive strength | 105 | MPa | ASTM D695 |
| shear strength | |||
| 6.35 mm | 57.2 | MPa | ASTM D732 |
| IMPACT | Nominal value | Unit | Test method |
|---|---|---|---|
| Impact strength of cantilever beam notch | |||
| 23℃ | 110 | J/m | ASTM D256-A |
| Notched impact strength of cantilever beam | |||
| 23℃ | 610 | J/m | ASTM D256 |
| THERMAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Hot deformation temperature | |||
| 1.8 MPa, unannealed, 3.2 mm | 153 | ℃ | ASTM D648 |
| Glass transition temperature | 367 | ℃ | DSC |
| Linear coefficient of thermal expansion | |||
| MD | 6.6E-5 | 1/℃ | ASTM E228 |
| Electrical performance | Nominal value | Unit | Test method |
|---|---|---|---|
| Dielectric strength | 4.3 to 11 | kV/mm | ASTM D149 |
| Dielectric constant | 3.00 to 3.20 | ASTM D150 | |
| Dissipation factor | 2.6E-3 to 2.7E-3 | ASTM D150 | |
| Volumetric resistance | 6.0E+13 to 1.0E+14 | ohms | ASTM D257 |
| FLAME CHARACTERISTICS | Nominal value | Unit | Test method |
|---|---|---|---|
| Flame retardant level | V-0 | UL 94 | |
| FAA | < 5.00 | FAR 25.853 | |
| NBS smoke density | ASTM F814/E662 | ||
| flaming | Passed | ASTM F814/E662 | |
| non-flaming | Passed | ASTM F814/E662 | |
| OSU total heat release | FAR 25.853 | ||
| 2 min test | 16.0 | kW·min/m² | FAR 25.853 |
| 5 min test | 36.0 | kW/m² | FAR 25.853 |
| Vertical combustion -60 seconds | |||
| 1.02 to 6.35 mm | 2.0 | sec | FAR 25.853 |
| exothermic | |||
| 65/65,<40HR Peak,1.52 mm | Passed | FAR 25.853 |
| Supplementary information | Nominal value | Unit | Test method |
|---|---|---|---|
| Outgassing | ASTM E595 | ||
| Collected Volatile Condensable Material(CVCM) | -0.10 | % | ASTM E595 |
| Total Mass Lost(TML) | 0.41 | % | ASTM E595 |
| Water Vapor Recovered(WVR) | -0.37 | % | ASTM E595 |
| Antifungal activity | |||
| Method 508.6 | Passed | MIL STD-810G |
| Notes |
|---|
| 1. Typical properties: these are not to be construed as specifications. |
| 2. Type I, 0.20 in/min |
| 3. Method I (3 point load), 0.050 in/min |
| 4. Method A (Short-Time) |
| 5. All Electrical Property values were generated from the average of test plaques built with default part density (solid). Test plaques were 4.0 x 4.0 x 0.1 inches (102 x 102 x 2.5 mm) and were built both in the flat and vertical orientation. The range of values is mostly the result of the difference in properties of test plaques built in the flat vs. vertical orientation. |
| 【 Disclaimer 】 Guangzhou Soliao Information Technology Co., Ltd. reserves all rights. The information in this data table was obtained from the manufacturer of the material on soliao.com. Soliao.com makes every effort to ensure the accuracy of this data. However, the search company does not assume any responsibility for the uncertainty and consequences caused to users by these data values and suggestions, and strongly recommends verifying the data values with the material supplier before the final selection of materials. |