Knowde Enhanced TDS
Identification & Functionality
- Chemical Family
- Fillers Included
- Polymer Name
- Plastics & Elastomers Functions
- Technologies
Features & Benefits
- Materials Features
- Key Features
- High Modulus
- High Stiffness
- Dimentional Stability
- Low Shrinkage And Warpage
- Good Electrical Properties
- High Temperature Dimensional Stability
- High Temperature Resistance
- Size Stability
- Low Warp
- High Processing Precision
- Creep Resistance
- Low Permeability
- High Rigidity
- Low Cost
- High Mechanical Strength
- High Dimensional Stability
- Good Heat Resistance
- Benefits and Advantage
- Resistance To A Variety Of Fuel Oil Corrosion, At A Higher Temperature To Maintain Good Mechanical Properties, Good Dimensional Stability, Good Mobility, Good Flame Retardant, High Rigidity, Low Permeability, Low Creep, Light Weight, Reduced Manufacturing Cost.
- High Heat Resistance, High Dimensional Accuracy, High Rigidity, High Temperature Resistance To Chemical Resistance Is Still Excellent, Easy To Process, Compared To The Metal Parts, Eliminating The Mechanical Processing, Good Insulation
- High Mechanical Properties, High Temperature Resistance, Low Density, Replace Metal, Reduce Weight, Easy To Process, Reduce Production Costs.
- Precision Molding, Flame Retardant, Good Electrical Performance, Heat Shock, Excellent Thermosetting Resin And Ceramic Substitute Materials, Easy Molding Processing
- High Temperature Resistance, Corrosion Resistance, Dimensional Stability And Accuracy, Good Metal Substitute Material
- High Dimensional Accuracy, Precision Molding, V-0 Ul94 Flame Retardant Grade, Low Voc, Low Water Absorption, Weld Seam Strength High, Cost-Effective
- Ul 94 V-0 Flame Retardant Grade, Good Mobility, Weld Line Strength Is Better Than Lcp, High Modulus, Good Electrical Performance, Short Processing Cycle, Creep Resistance Can Be Good, Excellent Metal And Ceramic Alternative Materials
- Good Dimensional Stability, Good Thermal Stability, Hydrolytic Stability, Chemical Corrosion Resistance, Can Insert Molding, Used In High And Low Temperature Can Ensure High Mechanical Propeties, Easy Processing, Good Material Substitute Of Metal And Ceramics
- Good Chemical Resistance, Good Dimensional Stability, Excellent Thermal Stability, Low Processing Cost
Applications & Uses
- Markets
- Applications
- Plastics & Elastomers Processing Methods
- Typical Applications
Can be used in auto parts such as Fuel Pump Impellers,Reflector Housing,Socket Bases and Air-conditioning PTC parts etc.
Properties
- Mechanical Properties
- Thermal Properties
- Typical Properties
- Electrical Properties
- Processing Parameters
| Value | Units | Test Method / Conditions | |
| Tensile Strength | 150 | mPa | ISO 527 |
| Tensile Strength | 165 | mPa | ISO 527 |
| Elongation at Break | 1 | % | ISO 527 |
| Flexural Modulus | 20 | GPa | ISO 178 |
| Flexural Strength | 240 | mPa | ISO178 |
| Flexural Strength | 255 | mPa | ISO178 |
| Charpy Impact Strength (V-notched) | 8 | kJ/m² | IS0 179 |
| Value | Units | Test Method / Conditions | |
| Melting temperature (10°C/min) | 280 | °C | ISO 11357 |
| Heat Deflection Tem p High Load (1.8MPa) | 265 | °C | ISO 75 |
| Flammability | V-0 | class | UL-94 |
| Value | Units | Test Method / Conditions | |
| Density | 1930 | kg/m³ | ISO 1183 |
| Density | 1950 | kg/m³ | ISO 1183 |
| Mold shrinkage (Machine Direction) | 0.3 | % | GB/T 15585 |
| Mold shrinkage (Transverse Direction) | 0.5 | % | GB/T 15585 |
| Water Absorption (23°C-sat) | 0.02 | % | ISO 62 |
| Value | Units | Test Method / Conditions | |
| Dielectric Strength | 14 | KV/mm | IEC 60243 |
| Dielectric Constant | 5 | - | IEC 60250 |
| Dissipation Factor | 0.001 | - | IEC 60250 |
| Volume Resistivity | 1.6×10^15 | Ω.cm | IEC 60093 |
| CTI | 200 | V | IEC 60112 |
| Value | Units | Test Method / Conditions | |
| Drying at 3h | 150 | °C | - |
| Injection Pressure | 30~100 | mPa | - |
| Injection Molding Melt Temperature | 290~330 | °C | ISO 294 |
| Injection Molding Melt Temperature | 120~160 | °C | ISO 294 |
| Limit in-cylinder retention time at 300°C | min. 60 | - | - |
| Limit in-cylinder retention time at 300°C | min. 68 | - | - |
| Limit in-cylinder retention time at 300°C | min. 84 | - | - |
| Limit in-cylinder retention time at 300°C | min. 85 | - | - |