| About |
|---|
| Arlon 25N and 25FR are woven fiberglass reinforced, ceramic-filled composite materials engineered for use in microwave and RF multilayer printed circuit boards. Combining a non-polar thermoset resin system with a controlled-expansion ceramic filler, 25N and 25FR offer low dielectric constant and loss combined with a low Thermal Coefficient of Dielectric Constant (TCEr) for signal stability over a wide ambient temperature range. Designed for use in multilayer packages, 25N and 25FR offer prepregs that are identical in chemical composition and physical properties with their copper clad laminates for a completely homogeneous finished package for optimal signal integrity. The low dielectric constant (Er) and loss properties, low thermal coefficient of dielectric constant (TCEr), and excellent physical stability characteristics offered by 25N and 25FR materials make them ideal for wireless and digital applications, such as cellular telephones, down converters, low noise amplifiers, antennas and other advanced des ign circuits. Processing for 25N and 25FR materials is consistent with processing for standard high temperature thermoset based printed circuit board substrates.&& |
| Product Description | |
|---|---|
| Generic | PTFE |
| Material Status | Commercial: Active |
| Features | Good Dimensional Stability,Quick molding cycle,V-0 |
| Availabilitys | North America,Asia Pacific,Europe |
| Technical Data | |||
|---|---|---|---|
| PHYSICAL | Nominal value | Unit | Test method |
| Density | 1.80 | g/cm³ | ASTM D792-A |
| Water absorption rate | |||
| 23℃,24hr | 0.090 | % | Internal Method |
| Volatiles | 0.0 | % | |
| MECHANICAL | Nominal value | Unit | Test method |
|---|---|---|---|
| bending strength | |||
| 23℃ | 241 | MPa | ASTM D790A |
| film | Nominal value | Unit | Test method |
|---|---|---|---|
| tensile strength | |||
| MD, yield | 96.5 | MPa | ASTM D882A |
| peel strength | 875.6 | N/m | Internal Method |
| THERMAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Linear coefficient of thermal expansion | |||
| MD | Internal Method | ||
| — | 1.6E-5 | cm/cm/℃ | Internal Method |
| — | 1.8E-5 | cm/cm/℃ | Internal Method |
| — | 5.9E-5 | cm/cm/℃ | Internal Method |
| -10 to 140 ℃ | 5.0E-5 | cm/cm/℃ | Internal Method |
| Thermal conductivity coefficient | |||
| 100℃ | 0.45 | W/m/K | ASTM E1225 |
| Electrical performance | Nominal value | Unit | Test method |
|---|---|---|---|
| Surface resistivity | |||
| 0.3 mm | 8.9E+8 | ohms | Internal Method |
| Volume resistivity | |||
| 0.305 mm | 4.2E+8 | ohms·cm | Internal Method |
| Dielectric constant | |||
| 23 ℃,10.0 GHz | 3.58 | Internal Method | |
| Dissipation factor | |||
| 10 GHz | 3.5E-3 | Internal Method |
| FLAME CHARACTERISTICS | Nominal value | Unit | Test method |
|---|---|---|---|
| Flame retardant level | V-0 | UL 94 |
| Supplementary information | Nominal value | Unit | Test method |
|---|---|---|---|
| Total Mass Loss(125℃) | > 0.24 | % | |
| Water Vapor(Recovered) | 0.070 | % |
| Notes |
|---|
| 1. Typical properties: these are not to be construed as specifications. |
| 2. 23°C |
| 3. E1/105 + D24/23 |
| 4. Maximum 0.10% |
| 5. After Thermal Stress |
| 6. X-axis |
| 7. Y-axis |
| 8. Z-axis |
| 9. Adapted |
| 10. C23/50 |
| 11. C48/23/50, E24/125, |
| 12. < 10e-6 torr, Maximum 1.00% |
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