Chemical Structure Differences
The fundamental difference between PA6 (nailon 6) y PA66 (nailon 66) lies in their molecular structure:
- Nylon 6: Made from caprolactam, has 6 carbon atoms in each repeating unit. Less crystalline structure.
- Nylon 66: Made from hexamethylenediamine and adipic acid, has two 6-carbon chains. More crystalline structure.
Mechanical Properties Comparison
| Propiedad | PA6 | PA66 |
|---|---|---|
| Resistencia a la tracción | 70-85 MPa | 80-100 MPa |
| Módulo de flexión | 2.5-3.0 GPa | 2.8-3.5 GPa |
| Alargamiento a la rotura | 30-100% | 15-60% |
| Notched Izod Impact | 50-100 J/m | 40-80 J/m |
| Punto de fusión | 220°C | 260°C |
| HDT at 1.8 MPa | 70°C | 90°C |
Absorción de humedad
Moisture absorption is critical for nylon applications:
| Condition | PA6 | PA66 |
|---|---|---|
| At 50% RH | 2.5-3.0% | 2.0-2.5% |
| Saturation | 8-10% | 6-8% |
Processing Characteristics
Nylon 6 Processing
- Punto de fusión: 220°C
- Processing Range: 240-280°C
- Temperatura del molde: 40-80°C
Nylon 66 Processing
- Punto de fusión: 260°C
- Processing Range: 280-320°C
- Temperatura del molde: 60-90°C
Applications by Material
Nylon 6 Applications
- Gears and sprockets
- Industrial monofilament
- Film and packaging
- Consumer products
Nylon 66 Applications
- Automotive under-hood components
- Electrical connectors
- High-temperature bearings
- Precision mechanical components
Reinforced Grades
Both materials are commonly reinforced with glass fiber:
| Grado | PA6 + GF30 | PA66 + GF30 |
|---|---|---|
| Resistencia a la tracción | 140-160 MPa | 170-200 MPa |
| HDT (1.8 MPa) | 205°C+ | 250°C+ |
| Absorción de humedad | 1.0-1.5% | 0.8-1.2% |
Selection Summary
Choose Nylon 6 when:
- Impact resistance is critical
- Cost sensitivity is high
- Operating temperatures are moderate
Choose Nylon 66 when:
- Higher mechanical strength is required
- Elevated temperatures are expected
- Dimensional stability is critical
PREGUNTAS FRECUENTES
When is Nylon 6 vs Nylon 66 — Engineering Plastic Selection Guide a good option?
Nylon 6 vs Nylon 66 — Engineering Plastic Selection Guide is a good option when fast iteration, complex geometry, low tooling cost, or low-volume production is more important than molded-part unit cost.
What should be checked before choosing Nylon 6 vs Nylon 66 — Engineering Plastic Selection Guide?
Compruebe el tamaño de la pieza, las propiedades del material, el acabado superficial, la tolerancia dimensional, la exposición al calor, la dirección de la carga y si es necesario un tratamiento posterior.
How does Nylon 6 vs Nylon 66 — Engineering Plastic Selection Guide compare with CNC machining?
La impresión 3D puede crear formas complejas con rapidez, mientras que el mecanizado CNC suele ser más potente para superficies precisas, tolerancias más ajustadas y materiales de calidad de producción.
What affects the cost of Nylon 6 vs Nylon 66 — Engineering Plastic Selection Guide?
El coste depende del material, el volumen de fabricación, el tiempo de impresión, la altura de capa, la eliminación de soportes, el acabado, la inspección y el número de piezas de la fabricación.
Nylon 6 vs Nylon 66 — Frequently Asked Questions
Is Nylon 66 stronger than Nylon 6?
Yes. Nylon 66 typically offers 15-25% higher tensile strength (80-100 MPa vs 70-85 MPa) due to more crystalline structure.
Which nylon is better for gears?
Both work well. PA6 is preferred for impact-loaded gears due to higher toughness. PA66 is better for high-load, high-temperature applications.
Where can I source quality PA6 and PA66 granules?
Nylonplastic supplies both grades in natural, colored, and reinforced versions. Contact us for samples.
English
Dutch
German
French
Korean
Russian
Japanese
Spanish
Vietnamese
Chinese
Portuguese
Arabic