PA6 (Nylon 6) vs PC GF30: 0% composition overlap. Significantly different materials serving different application areas.
PA6 (Nylon 6) vs PC GF30
Side-by-side chemical composition and mechanical property comparison.
Overview
PA6 (Nylon 6)
Polyamide 6 (Nylon 6) β the most widely used engineering thermoplastic. Excellent combination of mechanical strength, toughness, wear resistance, and chemical resistance. Properties are moisture-sensitive β conditioned (50% RH) values are significantly lower than dry values. Trade names include Ultramid B (BASF), Akulon (DSM), Zytel (DuPont). Used for gears, bearings, bushings, cable ties, structural brackets, and automotive under-hood components.
PC GF30
Glass-fiber reinforced polycarbonate (30% short glass fiber). Combines PC's inherent impact resistance and transparency with dramatically improved stiffness, strength, creep resistance, and dimensional stability. UL94 V-0 flame rating. Very low moisture absorption (<0.15%) ensures stable properties in humid environments. HDT ~145Β°C under load. Trade names: Makrolon GF, Lexan GF, TECANAT GF30. Used for structural housings, electrical connectors, automotive lamp bezels, precision jigs/fixtures, load-bearing brackets, and 3D-printed functional parts (FDM).
| PA6 (Nylon 6) | PC GF30 | |
|---|---|---|
| Material Number | β | β |
| Category | Polymers | Polymers |
| Standard | ISO 10350 | ISO 7391 |
Chemical composition (wt%) β Pro
| Element | PA6 (Nylon 6) | PC GF30 | Overlap |
|---|---|---|---|
| Polycaprolactam (from Ξ΅-caprolactam) | 99β99.9% | β | β |
| Polycarbonate (Base Polymer) | β | 68β72% | β |
| Glass Fiber Reinforcement | β | 28β32% | β |
Mechanical properties β Pro
| Property | PA6 (Nylon 6) | PC GF30 | Unit |
|---|---|---|---|
| Tensile Strength | 75β85 | 120β140 | MPa |
| Yield Strength | 70β80 | β | MPa |
| Elongation | 30β100 | β | % |
| Elastic Modulus | |||
| Density | |||
| Glass Transition Temp (Tg) | |||
| Melting Point | |||
| Water Absorption (24h) | |||
| Tensile Strength | |||
| Tensile Modulus | |||
| Elongation at Break | |||
| Charpy Impact (notched) | |||
| Density | |||
| Melting Point | |||
| Glass Transition Temp | |||
| Water Absorption (24h) | |||
| Water Absorption (saturation) | |||
| Elastic Modulus | |||
| Elongation at Break | |||
| hdt_1.8mpa | |||
| Glass Fiber Content |
Sign up free and get 3 full comparisons immediately.
Sign up free β 3 comparisons/day freeCompatibility Assessment
PA6 (Nylon 6) and PC GF30 have significantly different compositions (0% overlap). These materials are not interchangeable and serve different application areas.
Automated assessment based on composition analysis
Frequently Asked Questions
Is PA6 (Nylon 6) the same as PC GF30?
PA6 (Nylon 6) and PC GF30 have a 0% composition overlap. They are generally not directly interchangeable.
Can I replace PA6 (Nylon 6) with PC GF30?
Generally not recommended. The compositions differ significantly (0% overlap). These materials have different alloying concepts and are intended for different applications.
What is the difference between PA6 (Nylon 6) and PC GF30?
The main differences are in the following elements: overall alloying content. PA6 (Nylon 6) is a Polymers grade, while PC GF30 is a Polymers grade.
Related Comparisons
View full data for each material:
Data provided for reference only. Always verify against the applicable specification for critical applications.
All data is for reference only. Equivalents indicate similarity, not identity. Always verify against the applicable specification for safety-critical applications. materialref.com accepts no liability for decisions based on this data.