What’s PA610 CF20?

It refers to Polyamide 610 (PA610) compounded with 20% Carbon Fiber (CF), typically sold at a competitive price point directly from manufacturing facilities.

This specific composite material is chosen for its enhanced mechanical properties, combining the inherent strengths of nylon 610 with the benefits imparted by carbon fiber reinforcement.

PA610 is a semi-crystalline polyamide known for its excellent mechanical strength, toughness, and resistance to abrasion and chemicals. It exhibits good dimensional stability and can withstand high temperatures, making it suitable for a range of industrial applications.

The addition of 20% carbon fiber to polyamide 610 significantly improves its stiffness, strength, and heat resistance.

Carbon fibers are lightweight yet exceptionally strong, providing reinforcement that enhances the material’s performance under mechanical stress and thermal conditions.

Which Application Fields It can Be Used in?

This makes PA610 CF20 ideal for applications requiring high stiffness-to-weight ratio, such as structural components in automotive, aerospace, and industrial equipment.

20% carbon fiber filled PA610 finds use in various industries for parts where strength, stiffness, and dimensional stability are critical.

In automotive applications, it is employed in engine components, structural parts, and under-the-hood components due to its ability to withstand heat and mechanical loads.

In aerospace, PA610 CF20 is utilized for lightweight yet robust components that require high performance under extreme conditions.

Furthermore, PA610+CF20% is favored in industrial machinery for manufacturing parts like gears, bearings, and housings, benefiting from its wear resistance and durability. The material’s electrical insulation properties also make it suitable for electrical connectors and components.

The compound is influenced by several factors including raw material costs, manufacturing efficiency, and market demand. Direct sourcing from manufacturers often offers cost advantages compared to purchasing through distributors or resellers.

This can be particularly beneficial for large-scale production where cost-effectiveness and consistent material quality are paramount.

Quality control measures in manufacturing ensure that PA610 CF20 meets industry standards for mechanical performance, dimensional accuracy, and consistency batch-to-batch.

This reliability is crucial for industries relying on materials that meet stringent specifications for safety, performance, and reliability.

PA610 CF20 offers a cost-effective solution for industries requiring high-performance materials with enhanced mechanical properties.

Its combination of PA610’s inherent characteristics with carbon fiber reinforcement provides a versatile material option suitable for diverse applications across automotive, aerospace, and industrial sectors.

Application Case: Innovative materials lead the future

PA610 CF20 is a material that is made of nylon PA610 as a solid base material, ingeniously blended with 20% of chopped carbon fiber, and carefully formulated. As soon as this material debuted, it shone brilliantly in many fields with its extraordinary performance advantages.

When it comes to strength, PA610-CF20 is the pinnacle. The 20% of chopped carbon fiber is like a tough steel backbone, giving the material unparalleled strength. Look at the frame of a high-end mountain bike. When PA610+CF20 is used here, the traditional frame suddenly pales in comparison. On the rugged and winding mountain roads, the complex and ever-changing terrain is like a lot of checkpoints, testing the quality of each frame. Ordinary aluminum alloy frames often have the worry of deformation or even the risk of breaking in such a harsh environment. The frame carefully made of CF20% PA610  material is like a steel warrior, standing proudly. Professional testing has shown that its strength is 40% higher than that of ordinary aluminum alloy frames. Whether it is a steep hillside or a bumpy gravel road, it can be as stable as a mountain, building a solid safety barrier for riders, allowing them to enjoy their journey of exploring nature without worries.

Looking at heat resistance, PA610 CF20% also performs well. In some equipment parts that work hard in high temperature environments, it is like a fearless warrior, charging forward. Take the joints of an industrial robot as an example. Long-term operation will inevitably generate considerable heat. Ordinary materials will often soften and deform under the impact of this rolling heat wave, which will seriously affect the accuracy and stability of the robot. However, when the joint parts made of PA610 CF 20 material appear, the situation is completely new. It can work calmly and stably in a hot environment of up to 80℃, like a calm and wise man, calmly dealing with various challenges. After repeated experiments and comparisons, under the same difficult working conditions, the service life of the joint parts using this material is significantly extended by 50% compared with traditional plastic parts. This amazing data undoubtedly demonstrates the excellent quality and strong strength of PA610 20%CF.

As the manufacturer of this magical material, Carbon (Xiamen) New Material, with its superb technology and rigorous and demanding quality control, is like a skilled craftsman, carefully carving every inch of the material. They ensure the excellent quality of PA610 CF20 with their ingenious wisdom and persistent efforts. In the long journey of scientific and technological development, whether in the field of high-end scientific and technological products full of futuristic sense or in the rigorous and pragmatic industrial field, PA610 CF20%, with its powerful performance advantages, is like a vigorous force, injecting continuous vitality into the vigorous development of various industries. It is like a key to open the door to the future, leading us to a more brilliant tomorrow.

If you’re interested in this product, please feel free to contact us by email or directly send any inquiries to us at any time.

Learn further information on more carbon fiber filled Nylon compounds, please click here.