What is PA66 CF30 ?
LFT-G® BC03A PA66 CF30 is a 30% long carbon fiber (Toray's) reinforced polyamide66(nylon66) Compound, also called nylon66 carbon fiber material. This carbon reinforced plastic combines the superior thermal and chemical resistance of a polyamide 66 matrix with a 30% loading of high-quality Toray long carbon fiber. This reinforced polymer offers a significant leap in performance over standard engineering plastics, providing an excellent balance of high strength, stiffness, and low weight. The PA66 CF30 grade is a versatile solution for durable components in automotive, industrial, and consumer electronics applications where high performance is a key requirement.
How strong is nylon carbon fiber material?
LFT-G® BC03A PA66-CF 30 Datasheet
Mechanical PropertiesProperty |
Value |
Unit |
Test Standard |
|---|---|---|---|
| Tensile Strength | 251 | MPa | ISO 527 |
| Tensile Modulus | 23599 | MPa | ISO 527 |
| Elongation at Break | 0.8 - 1.5 | % | ISO 527 |
| Flexural Strength | 341 | MPa | ISO 178 |
| Flexural Modulus | 14396 | MPa | ISO 178 |
| Notched Izod Impact Strength (23°C) | 360 | J/m |
ISO 180
|
| Notched Charpy Impact Strength (23°C) | 36 | kJ/m² |
ISO 179
|
Other PropertiesProperty |
Value |
Unit |
Test Standard |
|---|---|---|---|
|
Specific Gravity (Density)
|
1.23 |
g/cm³
|
ISO 1183
|
|
Molding Shrinkage (Flow)
|
0.1 - 0.3 | % |
ISO 294-4
|
|
Heat Deflection Temperature (1.8MPa)
|
252 |
°C
|
ISO 75-2/A
|
|
Melt Temperature
|
270 - 300 |
°C
|
|
|
Mold temperature
|
90 - 120 |
°C
|
Disclaimer: Please note: The data provided for LFT-G® PA66 CF30 represents typical values obtained from controlled laboratory testing according to international standards. These figures are intended for reference and comparison purposes only. The final properties of a molded component can be influenced by processing parameters, part design, colorant usage, and other manufacturing variables.
Download Complete BC03A PA66-CF 30 Datasheet PDF
Processing Information
To unlock the full potential of LFT-G® PA66 CF30, precise control of the injection molding process is crucial. As a high-temperature reinforced polymer, proper pre-drying is essential, and processing at elevated melt and mold temperatures is required to ensure a homogeneous melt and preserve the integrity of the long carbon fiber network.
| ①Drying Time | 4-5 hours |
|
Drying Temperature |
90-120°C |
| ② Temperature Zone (Melt) | 270-300°C |
| ③Mold Temperature | 90-120°C |
Why choose Toray's Carbon fiber?
Toray is a world-renowned leader in carbon fiber manufacturing, known for producing fibers with exceptionally high tensile strength, modulus, and consistency. By incorporating Toray's carbon fiber into our LFT-G® composites, we ensure that our customers receive a product with predictable, reliable, and top-tier performance. This translates to stronger, lighter, and more durable end-use parts with superior mechanical properties and a premium finish.
Benefits Filled Long Carbon fiber
- High strength and modulus for lightweight metal replacement.
- Superior thermal resistance compared to PA6-based composites.
- Excellent stiffness for creating robust, load-bearing parts.
- High fatigue endurance and resistance to long-term creep.
- Outstanding strength-to-weight ratio for performance-driven designs.
- Inherent electrical conductivity for ESD and EMI shielding.
What's feature of PA66 CF Plastic?
PA66 (Polyamide 66) CF is a high-performance engineering Carbon Fiber thermoplastic renowned for its exceptional strength, stiffness, and toughness over a wide temperature range. It features outstanding wear resistance and a low friction coefficient, coupled with excellent thermal stability and resistance to chemicals and oils. This powerful combination makes it ideal for durable, high-stress applications like automotive engine components, industrial gears, and electrical connectors.
What are carbon fiber composites used for?
Carbon fiber composites, particularly a high-temperature grade like our LFT-G®PA66 carbon fiber composite series product, are used for demanding engineering applications where strength, stiffness, and heat tolerance are critical. In the automotive sector, its high heat resistance makes it perfect for under-the-hood components. For aerospace and defense, it is used for structural drone components and lightweight equipment. In industrial settings, it excels in high-speed machinery parts and robotics. This PA66 CF30 carbon fiber composite is a superior material for replacing metal in many high-stress, high-temperature environments.
Automotive body panels
The high stiffness and thermal stability of this compound make any PA66-CF30 part an excellent choice for replacing metal in high-load structural components.
- Automotive under-the-hood components
- Industrial machinery housings and gears
- High-stress brackets and supports
- Electrical power tool casings
- Precision robotic arm components
- Durable parts for conveying systems
- Cooling system components (fans, shrouds)
Wind turbine blades
The excellent stiffness-to-weight ratio of our LFT-G® PA66 CF30 makes it a fantastic material for components in wind energy and other high-performance applications.
- Leading and trailing edge reinforcements
- Structural ribs and spars for blades
- Nacelle housings and internal components
- High-performance bicycle frames
- Components for high-end ski bindings
- Structural parts for competitive drones
FAQ
Q: Is Carbon fiber nylon a plastic?
A: Yes, it is a type of high-performance `carbon reinforced plastic`. The nylon (polyamide) is the plastic matrix, which is then reinforced with carbon fibers to create a composite like our LFT-G®PA66 CF30 with vastly superior properties.
Q:Why is carbon fiber so expensive?
A: Carbon fiber production is an energy-intensive, complex process requiring specialized precursors and equipment. For our LFT-G®PA66 CF30, we use premium Toray fiber to ensure the highest quality, which also influences the cost of this elite material.
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