Carbon fiber properties

Superior Mechanical Properties

At the heart of PAHT CF15’s exceptional performance is its incorporation of carbon fiber composite, which dramatically enhances the filament’s tensile strength and modulus.

The final heat treatment temperatures during the manufacturing process significantly influence the tensile strength and modulus of carbon fibers, classifying them into type I, type II, and type III. With a tensile strength of 8386 MPa (1216 ksi) in the X-Y plane and an elongation at a break of 2.9 ± 0.8%, this material produces parts that are incredibly robust and resistant to deformation.

The impact strength of 4.8 ± 3.9 KJ/m² further underscores its capability to withstand significant stress and strain without compromising on integrity.

Chemical Resistance for Versatile Carbon Fiber Composites Applications

PAHT CF15’s strength isn’t its only standout feature. Carbon fiber production processes and different precursor materials significantly impact the chemical resistance of carbon fibers.

As a type of carbon fiber material, it is also highly resistant to a wide range of chemicals, including solvents, oils, and acids. This makes it an ideal choice for applications where exposure to harsh environments is unavoidable.

Whether you’re developing parts for automotive, aerospace, or industrial use, PAHT CF15 ensures that your creations maintain their integrity and performance over time, even under the most challenging conditions.

Unlock New Possibilities

From rapid prototyping to the production of functional end-use parts, PAHT CF15 opens up a world of possibilities for your 3D printing projects, especially when utilizing carbon fiber composites.

The future trends in the development and application of carbon fiber materials include advancements in their strength, fabrication, performance, and potential replacements. Its unmatched combination of strength, stability, chemical resistance, and processability allows you to push the boundaries of what is possible in additive manufacturing.

This high-performance filament empowers you to elevate your creations, ensuring that they are not only reliable and durable but also capable of meeting the most stringent industry standards.

Carbon fiber yarn is used in various processing techniques such as prepregging, filament winding, pultrusion, weaving, and braiding, and finds applications in industries such as aerospace and automotive.

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Minimal Weaknesses, Maximum Potential

One of the few weaknesses of PAHT CF15, which incorporates carbon fibers, is the minimal visible print layer lines, resulting in a polished finish that enhances the aesthetic appeal of your parts. The final heat treatment temperatures during the manufacturing process contribute significantly to the material's high strength and polished finish. The carbon fibers derived from specific precursors, such as polyacrylonitrile (PAN) or mesophase pitch, contribute to the material’s high strength and polished finish. This grey-coloured filament offers a sleek and professional look, making it suitable for a wide range of applications where both form and function are crucial.

Quick Turnaround Time

With a lead time of just one day for this material, PAHT CF15 benefits from efficiently produced carbon fibers, ensuring that your projects stay on track and your timelines are met. Efficient processes in carbon fiber production contribute to this quick turnaround time. This rapid turnaround time, combined with its superior material properties, makes PAHT CF15 an indispensable asset in your 3D printing arsenal.

Elevate Your Creations with PAHT CF15

In conclusion, Carbon Fiber PAHT CF15 is more than just a filament – it’s a game-changer in the world of 3D printing. Its superior carbon fiber properties, including high tensile strength, compressive strength, and thermal and chemical stability, combined with exceptional chemical resistance and minimal weaknesses, make it the ideal choice for a wide range of demanding applications in composite materials. The advantages of carbon fiber materials, such as their strength, performance, and potential for future development, make them indispensable in various demanding applications. Whether you’re working on automotive, aerospace, or industrial projects, PAHT CF15 provides the reliability and performance you need to bring your ideas to life. Elevate your creations to new heights with PAHT CF15 and unleash the full potential of your imagination.

Revolutionize Your 3D Printing Projects with Hyper PLA-CF

In the world of 3D printing, the quest for materials that combine high strength, exceptional layer adhesion, and rapid printability is ongoing. Hyper PLA-CF is the breakthrough material that meets and exceeds these demands, offering a remarkable balance of strength, adhesion, and speed. With 30% higher mechanical properties than standard PLA, Hyper PLA-CF sets a new benchmark for excellence in additive manufacturing.

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Unmatched Tensile Strength and Layer Adhesion

Hyper PLA-CF is engineered to deliver superior physical and mechanical properties, making it the go-to choice for the most demanding applications. Final heat treatment temperatures significantly affect the tensile strength and layer adhesion of carbon fibers, classifying them into type I, type II, and type III based on these temperatures. With a tensile strength of 103 MPa in the X-Y plane and an impressive strength-to-weight ratio, it ensures that printed parts are robust and reliable. The material’s elongation at break of 3552 MPa highlights its ability to endure significant stress without compromising integrity. The flexural strength and flexural modulus of Hyper PLA-CF are also 30% higher than those of standard PLA, ensuring that your creations are both strong and resilient.

Ideal for Demanding and Light Weight Applications

Whether you’re working on UAVs, aircraft models, joints, or drives, Hyper PLA-CF provides the lightweight, reliability, and performance needed for such high-stakes projects. Different carbon fiber production processes impact the material's suitability for demanding applications, ensuring that it meets specific tensile strength and modulus values. Its superior layer adhesion ensures that parts remain intact and functional, even under substantial loads and stress. This makes it an ideal material for creating components that require high strength and precision.

Superior Material Properties

The Young’s Modulus of Hyper PLA-CF in the X-Y plane is 4.1 KJ/m², indicating its stiffness and resistance to deformation, which are key properties of carbon fibers. The final heat treatment temperatures during manufacturing significantly contribute to this stiffness and resistance to deformation. This property, combined with its impressive tensile strength and elongation at break, underscores the material’s exceptional mechanical performance. With Hyper PLA-CF, you can trust that your 3D printed parts will maintain their shape and function over time, even in demanding environments.

Aesthetic and Functional Excellence

One of the standout features of Hyper PLA-CF is its matte finish, which is achieved through the inclusion of graphite fiber, enhancing the aesthetic appeal of printed parts and providing a professional and polished look. Carbon fiber materials contribute significantly to both the aesthetic and functional properties of the filament, offering superior strength and performance. Available in a variety of colours, including Black, Dark Green, Purple, Ochre, and Greyish Yellow, this filament allows for customization and versatility in your projects. Whether you need a sleek, understated finish or a bold, vibrant hue, Hyper PLA-CF has you covered.

Rapid Turnaround Time

Hyper PLA-CF offers a lead time of just one business day, ensuring that your projects stay on schedule and you can meet tight deadlines. This quick turnaround is due to the efficient process used in carbon fiber production, which enhances the material’s high performance. This makes Hyper PLA-CF an indispensable asset in your 3D printing toolkit.

Elevate Your 3D Printing with Hyper PLA-CF

In conclusion, Hyper PLA-CF is more than just a filament; it is a transformative material that elevates the capabilities of 3D printing. The carbon fibers produced in Hyper PLA-CF contribute to their high strength, exceptional layer adhesion, and rapid printability, making them ideal for a wide range of demanding applications. Carbon fiber materials offer significant advantages in various demanding applications due to their strength, performance, and fabrication benefits. Whether you’re developing UAVs, aircraft models, or precision components, Hyper PLA-CF provides the reliability and performance you need to succeed. Unlock new possibilities and enhance your creations with Hyper PLA-CF.

About Us

At 3DMITECH LTD, we are committed to providing the highest quality materials for the 3D printing industry. Our innovative solutions and dedication to excellence ensure that you have access to the best materials for your projects. Contact us today to learn more about Carbon Fiber PAHT CF15 or  Hyper PLA-CF and how it can revolutionize your 3D printing experience.

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