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Carbon Fiber(frp) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
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Carbon Fiber Product List

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Liquid Crystal Polyester Fiber (LCP Fiber) "Zexion(R)"

Liquid Crystal Polyester Fiber (LCP Fiber) "Zexion(R)"

Liquid crystal polyester fiber with excellent strength and elasticity.

"Zexcion(R)" is a liquid crystal polyester fiber (LCP fiber) that has been highly oriented and crystallized through our spinning technology and heat treatment processing technology. Thanks to our unique technology, it has been made finer in denier (total denier, single yarn denier). It possesses characteristics such as heat resistance, acid resistance, cut resistance, vibration damping, and low water absorption, and it also excels in electrical properties with low dielectric constant. 【Product Characteristics】 ■ High strength: Achieves strength of 30cN/dtex or more, high elasticity: Achieves elasticity of 1000cN/dtex or more ■ Low dielectric constant: Excellent electrical properties ■ Low linear expansion: Extremely small dimensional changes due to temperature ■ Fine denier: Capable of producing total denier below 220dtex and single yarn denier of 2.3dtex ■ Heat resistance, acid resistance, cut resistance, vibration damping, low water absorption *For more details, please feel free to contact us.

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LCP (Liquid Crystal Polyester) fiber "Siberas" *Free booklet available

LCP (Liquid Crystal Polyester) fiber "Siberas" *Free booklet available

Toray's high-performance fibers contribute to weight reduction and cost savings! They do not absorb water, eliminating concerns about corrosion while maintaining high strength. There are also various examples of processing, such as seismic-resistant materials.

Toray's "Shiberasu" is a fiber made from LCP (liquid crystal polyester) resin, characterized by high strength, high elasticity, and low elongation. It does not absorb water, poses no risk of corrosion, and maintains high strength over a long period. It contributes to the lightweighting of products as an alternative material to metals, as well as reducing total costs. 【Fields and Application Examples】 ◆ Construction: Safety belts, lifelines (ropes), slings, power line construction, bridge seismic isolation sliding materials, etc. ◆ Marine: Vessels, aquaculture units, mooring for offshore wind power generation, etc. ◆ Civil Engineering: Dam floating debris prevention units, cables, slings, etc. 【Features】 ■ Resistant to dimensional changes due to fluctuations in environmental conditions ■ Absorbs vibrational energy, also serves as a seismic-resistant material ■ Confirmed through testing to have a higher specific strength than standard SUS304 *We are currently offering a free booklet featuring case studies where this product has been used for mooring ropes in hydropower plants! Click to download the PDF and obtain it.

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Key Points for CFRP Component Development (Design Edition) *Free Download Available

Key Points for CFRP Component Development (Design Edition) *Free Download Available

A design with a "layered structure" that maximizes characteristics is necessary. Here are examples of CFRP molding! [A must-see for designers, developers, and engineers]

This document explains the key points of design for CFRP component development. It includes information on the anisotropy of CFRP, molding examples (prepreg), comparative data on various material properties, and the differences and comparison data between unidirectional laminates and pseudo-isotropic laminates. Our company has established a supply chain that covers everything from CFRP molding to post-processing, allowing us to provide one-stop support for the development of CFRP from design to prototyping and mass production. [Contents (partial)] ■ CFRP is an anisotropic material ■ Molding examples of CFRP (prepreg) ■ It is necessary to design laminate configurations that maximize the characteristics of CFRP ■ Before considering CFRP conversion ■ How our company can assist you in the development of CFRP components *For more details, please refer to the PDF document or feel free to contact us.

  • Composite Materials
  • Engineering Plastics

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【Basic Knowledge】What is Carbon Fiber and CFRP?

【Basic Knowledge】What is Carbon Fiber and CFRP?

Leave the processing of CFRP materials to us! An introduction to carbon fibers and CFRP.

Carbon fiber has excellent properties, being lighter than aluminum, stronger than iron, and having a higher modulus of elasticity than titanium. Utilizing these properties, it has been used in racing cars, golf clubs, fishing rods, and more since ancient times. In recent years, as the price of CFRP materials has decreased, they have begun to be used in energy-related applications such as wind turbines, robots, industrial rolls, CT scanner beds, and even in automobiles. 【Features】 ■ Light… Density is about 1/4 that of iron ■ Strong… Specific strength is about 10 times that of iron (specific modulus is about 7 times that of iron) ■ Fatigue strength retention is twice that of iron ■ Coefficient of thermal expansion is extremely small ■ Good electrical conductivity *For more details, please refer to the PDF document or feel free to contact us.

  • Special Processing Machinery

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Recycled Carbon: Recovering Carbon Fibers from CFRP Waste in Fiber Form!

Recycled Carbon: Recovering Carbon Fibers from CFRP Waste in Fiber Form!

Recycling carbon technology that extracts carbon fibers from CFRP using electrolysis!

The "Electrolytic Oxidation Method" is a technology for recovering carbon fibers in fibrous form from carbon fiber reinforced plastic (CFRP) waste using electrolysis. Since it is a manufacturing method conducted in water, a slurry containing well-dispersed carbon fibers of several centimeters in length is obtained, from which a thin non-woven fabric with well-dispersed fibers can be produced using the papermaking method. The process is simple, does not require large-scale capital investment, has high productivity, and allows for the recovery of the matrix resin. 【Features】 ■ Technology for extracting carbon fibers from CFRP through electrolysis ■ The lowest manufacturing cost ■ Simple process ■ No need for large-scale capital investment ■ Recovery of matrix resin is also possible *For more details, please request materials or view the PDF data available for download.

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Three benefits of solving common issues and challenges encountered during lightweight design considerations.

Three benefits of solving common issues and challenges encountered during lightweight design considerations.

A technical document explaining common concerns about weight reduction during design and development, and the additional benefits that arise from the use of CFRP. Samples are also available.

"The 'Common Issues and Three Benefits of Solving Challenges During Weight Reduction Consideration' is a technical document that explains the common concerns and problems related to weight reduction during design and development, as well as the additional benefits that arise from the use of CFRP." "Do you have any of these concerns?" ■ I want to achieve weight reduction while maintaining strength... ■ I want to use resin for weight reduction, but it's impossible due to high vibration areas... ■ I want to block electromagnetic waves with a lightweight material... * Please view the PDF of the technical document available for download. * If you would like a sample of CFRP, please specify "Sample Request" and provide details about your application and concerns when contacting us. (Samples are limited in quantity and may be declined. Thank you for your understanding.)

  • Prototype Services
  • Processing Contract
  • Composite Materials

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Recycled Carbon Fiber <From Recycled Scheme Development to Processed Product Development>

Recycled Carbon Fiber <From Recycled Scheme Development to Processed Product Development>

Would you like to recycle the scrap and waste from the CFRP production process?

Our company provides technology for separating and recovering carbon fibers from scrap and waste generated during the manufacturing of CFRP products, and for recycling them into carbon fiber composites. The recycled carbon fiber composites can be utilized as filling materials for CFRP, reinforcing fillers, as well as insulation materials for construction, and functional materials that leverage X-ray permeability and electromagnetic wave shielding properties. We contribute to reducing the amount of CFRP industrial waste and developing products that utilize recycled carbon fibers, thereby strengthening your brand power. 【Features】 ■ Possession of carbon fiber recovery technology using solvent methods (chemical recycling) ■ Capable of separation and recovery while maintaining long fiber state ■ Can provide molded products such as non-woven fabrics, CFRTP boards, and pipes, allowing for designs tailored to applications in industrial materials, construction materials, sports goods, etc. ■ Support from product commercialization to marketing and channel development *For more details, please refer to the PDF materials or feel free to contact us.

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Phenol CFRP molded products

Phenol CFRP molded products

Developed high heat-resistant CFRP using phenolic resin! Responding to the diversified and advanced needs of customers!

Mitsubishi Chemical Corporation has developed a carbon fiber reinforced plastic (CFRP) that balances lightweight properties, rigidity, and high heat resistance. This developed product achieves high heat resistance that does not degrade its physical properties even at 300°C by using phenolic resin as the base resin. By adding high heat resistance to its characteristic high thermal conductivity, high rigidity, and lightweight properties, it becomes possible to provide solutions to customer challenges that have been difficult to resolve until now. 【Features】 ■ Uses phenolic resin as the base resin ■ Achieves high heat resistance that does not degrade its physical properties even at 300°C ■ Adds high heat resistance in addition to high thermal conductivity, high rigidity, and lightweight properties ■ Capable of providing solutions to customer challenges that have been difficult to resolve ■ Already confirmed adoption by some customers *For more details, please refer to the PDF document or feel free to contact us.

  • Composite Materials
  • Other polymer materials
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Development of technology for the recovery and recycling of carbon fibers from waste CFRP.

Development of technology for the recovery and recycling of carbon fibers from waste CFRP.

Thermal decomposition using alkali hydroxide! Promoting the decomposition of resin without breaking down carbon fibers.

"Development of Technology for Recovery and Reutilization of Carbon Fibers from Waste CFRP Using Alkaline Hydroxide" is a document about research that promotes the decomposition of resin without breaking down carbon fibers by conducting thermal decomposition of CFRP (carbon fiber reinforced plastic), which is a composite material made of carbon fibers and resin, in the presence of alkaline hydroxide. It provides detailed explanations on the research background, objectives, the effects of thermal treatment on carbon fibers in the presence of sodium hydroxide, as well as experimental results such as the strength evaluation of recovered carbon fibers. Comparisons with combustion methods and applications to various products are also included with accompanying photographs. [Contents (Excerpt)] ■ Research Background ■ Experimental Samples ■ Experiment 1: Effects of Thermal Treatment on Carbon Fibers in the Presence of Sodium Hydroxide ■ Results (Effects of NaOH Addition Ratio and Heating Temperature) ■ Results (Analysis by SEM) *For more details, please refer to the PDF document or feel free to contact us.

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Carbon fiber / CFRP

Carbon fiber / CFRP

Contribution to reducing environmental impact by the materials industry

Carbon fiber is an essential material for imparting functionality to composite molding materials. It has ten times the strength of steel while weighing only a quarter of it, enabling the combination of high strength and lightweight properties. It is a fiber with diverse characteristics such as fatigue resistance, rust resistance, and chemical resistance.

  • Composite Materials

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Carbon fiber "scrap"

Carbon fiber "scrap"

Excess fibers produced by the manufacturer.

"End materials" are the core products of Airtex Co., Ltd.'s carbon fiber business. Even though they are considered end materials, they maintain long fibers and possess the remarkable strength characteristics of carbon fiber. Additionally, they are ideal for creating thick CFRP molded products through a combination with resins that have good impregnation properties while maintaining a balance of cost performance. [Features] ■ Excellent strength characteristics ■ Maintains a balance of cost performance ■ Ideal for producing thick CFRP molded products *For more details, please download the PDF or feel free to contact us.

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Introduction of components using FMC (high-performance CF-SMC materials)

Introduction of components using FMC (high-performance CF-SMC materials)

It has various advantages over other CFRP components and metal components!

Carbon fiber FMC (FORGED MOLDING COMPOUND) is a sheet-like intermediate material that impregnates cut high-strength carbon fibers with thermosetting resin. 【Features of components using FMC】 - It allows for press molding, significantly reducing molding time compared to conventional autoclave molding, enabling mass production and cost reduction. - FMC has short carbon fibers randomly arranged, providing high fluidity during molding, making it possible to produce large and complex-shaped parts that are difficult to manufacture with conventional CFRP. - FMC has a low specific gravity and high strength compared to metals, allowing for the lightweighting of metal parts. 【What Mitsubishi Chemical can do】 - Mitsubishi Chemical provides total support from the production and supply of carbon fiber FMC (CF-SMC) materials to structural analysis, planning, design, and development. *For more details, please refer to the PDF document or feel free to contact us.

  • Composite Materials

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"Snow cave" made from high-strength carbon fiber, high-rigidity carbon fiber, washi paper, and aluminum alloy.

"Snow cave" made from high-strength carbon fiber, high-rigidity carbon fiber, washi paper, and aluminum alloy.

The light of "healing" that leaks from geometric line drawings!

● Due to the freedom of shaping and the inherent mechanical properties of composite materials, their application in interiors and lifestyle products has begun to gain popularity. It seems that "snow lanterns" have a meaning beyond just providing light for living, such as creating an atmospheric effect through landscape lighting. ● Moldable shapes of CFRP We accept processing into various shapes according to customer specifications. This product is made from high-strength carbon fibers, high-rigidity carbon fibers, washi paper, and aluminum alloy. ★ For more details, please request materials or download the documents ★

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Introduction of pitch-based CFRP applications in semiconductor manufacturing equipment.

Introduction of pitch-based CFRP applications in semiconductor manufacturing equipment.

Contributing to the performance enhancement of semiconductor manufacturing equipment! CFRP enables lightweight design, improved vibration damping, and enhanced thermal dimensional stability!

"Pitch-based carbon fibers" not only have lightweight and high rigidity but also possess the characteristics of low thermal expansion rate and high thermal conductivity. By utilizing the features of anisotropic materials, it is possible to impart physical properties (such as elastic modulus and thermal conductivity) in a targeted direction, as well as to design for zero thermal expansion in both the X and Y directions. As a manufacturer of pitch-based carbon fibers, we can propose appropriate CFRP designs that leverage the characteristics of the material. [Features] - Weight reduction of 40-60% possible (compared to aluminum and ceramics) - Quick vibration damping allows for reduced takt time - Thermal expansion rate can be made nearly zero - Can be used for parts where dimensional changes due to heat need to be minimized - High thermal conductivity prevents ignition due to heat dissipation - Can be used for heat dissipation applications *For more details, please refer to the PDF document or feel free to contact us.

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