Knowde Enhanced TDS
Identification & Functionality
- Additives Included
- Polymer Name
- Plastics & Elastomers Functions
- Technologies
Features & Benefits
- Labeling Claims
- Materials Features
- Key Attributes
SILTEM™ resin is an amber, transparent, siloxane polyetherimide block copolymer, offering a tailorable combination of strength, flexibility and heat resistance. It may be an option for high performance wire coating solutions meeting high industry and regulatory standards:
- Non fluorinated
- Flexibility - no cracking
- Abrasion resistance
- High heat performance
- Potential Benefits of SILTEM™ Resin
- Non-fluorinated, PFAS-free
- Compliant with flame, smoke and toxicity regulations (FAR 25.853)
- Compliant with certain transportation and infrastructure regulations
- Process and cost efficiency (vs fluoropolymers)
- Ease of processing
- Low corrosiveness, improved cost of ownership
- Low density, lower weight parts
- Durable in a range of harsh environments
- Durability with high service temperatures
- UV stable
- Excellent chemical resistance
- Highly durable in high-radiation environments
- Non-fluorinated, PFAS-free
- SILTEM™ Resin Material Properties
SILTEM™ resin is an amorphous polyetherimidesiloxane (PEI-Si) copolymer that is easily extrudable. The combination of silicone elastomer (Si) with ULTEM™ resin (PEI) provides flexibility with high heat performance.
- Lower Heat
- Higher Flexibility
- Radiation resistance
- Chemical resistance
- UV resistance
- Product Highlights
Fluoropolymers such as ETFE, FEP and PVDF are used in diverse applications due to their durability (heat, chemical, UV resistance) and flexibility. However, many of these products have come under global regulatory pressure due to the use of fluorosurfactants (PFAS) and their negative impact to the environmental footprint. Non-halogenated and PFAS-free SILTEM™ resins provide excellent high-heat performance, processability and durability without using fluorosurfactants. These advanced materials can be considered for potential use in a variety of industries and applications including transportation, aerospace and telecommunication cables/wires.
Applications & Uses
- Applications
- Plastics & Elastomers End Uses
- Plastics & Elastomers Processing Methods
Properties
- Flame Rating
- Physical Properties
- Mechanical Properties
- Thermal Properties
- Typical Properties
- Electrical Properties
- Processing Information (Profile Extrusion)
- Impact Properties
- Injection Molding
- Flame Characteristics
- Combustion Corrosivity
- Note
¹⁹ Wire and cable - UL 1581 tested on 2.0mm wire with 0.12mmx20 stranded copper
Value | Units | Test Method / Conditions | |
Mold Shrinkage (flow) | 1.35 | % | SABIC method |
Mold Shrinkage (xflow) | 1.43 | % | SABIC method |
Melt Flow Rate (at 295°C, 6.6 kgf) | 12 | g/10 min | ASTM D1238 |
Matrix Tg | 168 | °C | DMA |
Halogen Content | 0 | % | SABIC method |
Moisture Absorption (est) | 0 | % | ASTM D570 |
Specific Gravity | 1.18 | — | ASTM D792 |
Mold Shrinkage (on Tensile Bar, flow) | 1.2 - 1.4 | % | SABIC method |
Density | 1.18 | g/cm³ | ISO 1183 |
Water Absorption (at 23°C, saturated) | 0.12 | % | ISO 62-1 |
Melt Volume Rate (at 320°C, 2.16 kg) | 8 | cm³/10 min | ISO 1133 |
Value | Units | Test Method / Conditions | |
Tensile Stress (Yield, Type I, 50 mm/min) | 28 | MPa | ASTM D638 |
Tensile Strain (Break, Type I, 50 mm/min) | 100 | % | ASTM D638 |
Tensile Stress (Yield, 50 mm/min) | 20 | MPa | ISO 527 |
Flexural Modulus (at 2.6 mm/min, 100 mm span) | 380 | MPa | ASTM D790 |
Tensile Stress (Break, 50 mm/min) | 25 | MPa | ISO 527 |
Tensile Strain (Yield, 50 mm/min) | 15 | % | ISO 527 |
Tensile Strain (Break, 50 mm/min) | 110 | % | ISO 527 |
Tensile Modulus (at 1 mm/min) | 590 | MPa | ISO 527 |
Flexural Stress (Yield, at 2 mm/min) | 20 | MPa | ISO 178 |
Flexural Stress (Break, 2 mm/min) | 18 | MPa | ISO 178 |
Flexural Modulus (at 2 mm/min) | 470 | MPa | ISO 178 |
Taber Abrasion (CS-17, 1 kg) | 26 | mg/1000cy | ASTM D1044 |
Taber Abrasion (CS-17, 1 kg) | 60 | mg/1000cy | SABIC method |
Value | Units | Test Method / Conditions | |
Coefficient of Thermal Expansion (at 23°C to 80°C, flow) | 0.00011 | 1/°C | ISO 11359-2 |
Coefficient of Thermal Expansion (at 23°C to 80°C, xflow) | 0.00009 | 1/°C | ISO 11359-2 |
Ball Pressure Test (at 73°C to 77°C) | Pass | — | IEC 60695-10-2 |
Vicat Softening Temperature (Rate B/50) | 75 | °C | ISO 306 |
Vicat Softening Temperature (Rate B/120) | 78 | °C | ISO 306 |
Value | Units | Test Method / Conditions | |
Cable Wall Thickness ¹⁹ | 10 | mil | - |
Wire & Cable (Initial) ¹⁹ | 37 | MPa | - |
Wire & Cable (Initial) ¹⁹ | 400 | % | - |
Wire & Cable (Aged 1 week at 135°C) ¹⁹ | 38 | MPa | - |
Wire & Cable (Aged 1 week at 135°C) ¹⁹ | 370 | % | - |
Tensile Strength (Retention) ¹⁹ | 102 | % | - |
Tensile Elongation Retention ¹⁹ | 94 | % | - |
Value | Units | Test Method / Conditions | |
Relative Permittivity (100 kHz) | 2.7 | — | ASTM D150 |
Relative Permittivity (50/60 Hz) | 3.01 | — | ASTM D150 |
Surface Resistivity | min. 1.E+15 | Ω | ASTM D257 |
Volume Resistivity | 4.10E+16 | Ω.cm | ASTM D257 |
Volume Resistivity | 4.70E+14 | Ω.cm | IEC 60093 |
Dielectric Strength (in air, at 3.2mm) | 16.1 | kV/mm | ASTM D149 |
Dielectric Strength (in oil, at 3.2mm) | 16.3 | kV/mm | ASTM D149 |
Dielectric Strength (in oil, at 3.2mm) | 19 | kV/mm | IEC 60243-1 |
Dissipation Factor (at 50/60 Hz) | 0.01 | — | ASTM D150 |
Dissipation Factor (at 100 kHz) | 0.0056 | — | ASTM D150 |
Surface Resistivity (ROA) | 1.00E+15 | Ω | IEC 60093 |
Relative Permittivity (100 Hz) | 3 | — | IEC 60250 |
Dissipation Factor (at 100 Hz) | 0.0091 | — | IEC 60250 |
Comparative Tracking Index | 175 | V | IEC 60112 |
Comparative Tracking Index (M) | 100 | V | IEC 60112 |
Value | Units | Test Method / Conditions | |
Drying Temperature | 105 - 110 | °C | — |
Drying Time | 5 - 7 | Hrs | — |
Maximum Moisture Content | 0.02 | % | — |
Melt Temperature | 285 - 320 | °C | — |
Barrel - Zone 1 Temperature | 280 - 290 | °C | — |
Barrel - Zone 2 Temperature | 300 - 310 | °C | — |
Barrel - Zone 3 Temperature | 310 - 320 | °C | — |
Barrel - Zone 4 Temperature | 310 - 325 | °C | — |
Hopper Temperature | 60 - 100 | °C | — |
Adapter Temperature | 315 - 325 | °C | — |
Die Temperature | 300 - 320 | °C | — |
Calibrator Temperature | 60 - 80 | °C | — |
Value | Units | Test Method / Conditions | |
Izod Impact (Unnotched, 80*10*4, at 23°C) | No break | kJ/m² | ISO 180/1U |
Izod Impact (Unnotched, 80*10*4, at -30°C) | No break | kJ/m² | ISO 180/1U |
Izod Impact (Notched, 80*10*4, at 23°C) | 25 | kJ/m² | ISO 180/1A |
Izod Impact (Notched, 80*10*4, at -30°C) | 15 | kJ/m² | ISO 180/1A |
Value | Units | Test Method / Conditions | |
Back Pressure | 0.3 - 0.7 | MPa | — |
Drying Temperature | 105 | °C | — |
Drying Time | 4 - 6 | Hrs | — |
Drying Time (Cumulative) | 8 | Hrs | — |
Front - Zone 3 Temperature | 295 - 315 | °C | — |
Maximum Moisture Content | 0.02 | % | — |
Melt Temperature | 300 - 320 | °C | — |
Middle - Zone 2 Temperature | 295 - 315 | °C | — |
Mold Temperature | 65 - 95 | °C | — |
Nozzle Temperature | 300 - 320 | °C | — |
Rear - Zone 1 Temperature | 295 - 315 | °C | — |
Screw Speed | 50 - 100 | rpm | — |
Shot to Cylinder Size | 40 - 60 | % | — |
Vent Depth | 0.025 - 0.076 | mm | — |
Value | Units | Test Method / Conditions | |
Oxygen Index (LOI) | 46 | % | ASTM D2863 |
Oxygen Index (LOI) | 48 | % | ISO 4589 |
OSU Peak Heat Release Rate (5-minute test) | 140 | kW/m² | FAR 25.853 |
UL Compliant (94V-1 Flame Class Rating) | 1.6 | mm | UL 94 by SABIC-IP |
Glow Wire Flammability Index (passes at 960°C) | 3.2 | mm | IEC 60695-2-12 |
Value | Units | Test Method / Conditions | |
Corrosion (1 hr, 2500 angstroms max) | 40 | angstrom | ASTM E5.2170 |
Corrosion (24 hrs) | 122 | angstrom | ASTM E5.2170 |
Corrosion (6 days) | 183 | angstrom | ASTM E5.2170 |
Regulatory & Compliance
- Certifications & Compliance
Packaging & Availability
- Regional Availability