We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Fiber Composites.
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Fiber Composites Product List and Ranking from 14 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Feb 18, 2026~Mar 17, 2026
This ranking is based on the number of page views on our site.

Fiber Composites Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Feb 18, 2026~Mar 17, 2026
This ranking is based on the number of page views on our site.

  1. 三菱ケミカル コンポジットパーツ本部 Asia事業部 Tokyo//Resin/Plastic
  2. DJK Kanagawa//Resin/Plastic
  3. SHINDO 産業資材事業 Fukui//fiber
  4. 小松マテーレ Ishikawa//fiber
  5. 5 ミライ化成 青森Lab Aomori//Chemical
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Fiber Composites Product ranking

Last Updated: Aggregation Period:Feb 18, 2026~Mar 17, 2026
This ranking is based on the number of page views on our site.

  1. High heat-resistant carbon fiber composite materials! Comparison of physical properties of C/C and C/SiC. 三菱ケミカル コンポジットパーツ本部 Asia事業部
  2. Pitch-based carbon fiber composite "Diarid Composite" 三菱ケミカル コンポジットパーツ本部 Asia事業部
  3. What are the benefits of using "phenol CFRP"? 三菱ケミカル コンポジットパーツ本部 Asia事業部
  4. 4 Introduction of parts using carbon fiber FMC. 三菱ケミカル コンポジットパーツ本部 Asia事業部
  5. 5 Carbon Fiber Reinforced Polymer (CFRP) DJK

Fiber Composites Product List

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Carbon Fiber Reinforced Polymer (CFRP)

Carbon Fiber Reinforced Polymer (CFRP)

Can resin replace metal? We will introduce its characteristics, adoption benefits, and current issues.

We would like to introduce our "Carbon Fiber Reinforced Plastic (CFRP)." Among FRP, those that incorporate carbon fibers as reinforcement are called CFRP, and their characteristics are particularly lightweight, hard, and strong. Furthermore, they possess excellent performance in various aspects such as wear resistance, heat resistance, conductivity, acid resistance, and corrosion resistance. 【Features】 ■ Lightweight: Density is about 1/5 that of iron ■ High strength: Hardness equivalent to that of iron ■ High rigidity: Twice that of iron *For more details, please refer to the PDF document or feel free to contact us.

  • fiber
  • Processing Contract
  • Fiber Composites

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The future of carbon fiber and carbon fiber composites.

The future of carbon fiber and carbon fiber composites.

A definitive edition containing research, technology, and recommendations on carbon fibers and carbon fiber composites for the expansion of their use.

This book is a compilation of valuable information provided by leading experts in various fields regarding key points, fundamental concepts, various evaluation and analysis methods, cutting-edge manufacturing technologies, research and development trends, and future prospects in the research and development of carbon fibers and their composite materials.

  • Company:S&T出版
  • Price:10,000 yen-100,000 yen
  • Technical and Reference Books
  • Fiber Composites

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Production of test specimens for carbon fiber composite materials, evaluation tests (CFRP, CFRTP)

Production of test specimens for carbon fiber composite materials, evaluation tests (CFRP, CFRTP)

We undertake everything from the production of standard test specimens (JIS, ASTM, and other standard test specimens), custom test specimens, and component test bodies to evaluation testing.

Numerous achievements in specimen production for national research institutes and public universities. In addition to standard test specimens, we also accommodate custom shapes. We have particularly extensive experience with test specimens for structural testing. The matrices include epoxy, phenolic, BMI, polyimide, PA, PC, PPS, PEEK, PEI, and others.

  • Composite Materials
  • Fiber Composites

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Examples of CFRP Utilization

Examples of CFRP Utilization

We will introduce examples of the use of CFRP!

"Carbon fiber" is a material said to have a strength ten times that of steel and a weight one-fourth of it. We utilize two types of carbon fiber with different raw materials: "PAN-based carbon fiber," which has high strength, and "pitch-based carbon fiber," which features high elasticity, for various applications. It is mostly used not as carbon fiber alone but as a composite material combined with resin. There are various case studies of its introduction in applications such as FPD transport devices, semiconductor manufacturing equipment, train pantographs, industrial machinery, and picking robots. *For more details, please refer to the PDF materials or feel free to contact us.

  • Composite Materials
  • Other polymer materials
  • fiber
  • Fiber Composites

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What are the benefits of using "phenol CFRP"?

What are the benefits of using "phenol CFRP"?

With 'Phenol CFRP' that has heat resistance above 300℃, it is possible to reduce the weight of parts used in high-temperature environments, decrease deflection, and improve vibration damping!

Phenol CFRP is a composite material made of carbon fibers (long fibers) and phenolic resin. Phenolic resin has high heat resistance (over 300°C) and can be used in high-temperature environments that conventional CFRP (epoxy resin) cannot handle. **Benefits of Using Phenol CFRP** - Higher heat resistance compared to epoxy resin (over 300°C), allowing for use in high-temperature environments. - High specific modulus (modulus of elasticity divided by weight), enabling lightweight parts, thin-walled designs, and reduced deflection. - Excellent vibration damping properties, allowing for high-speed operation. **Common Needs** - Want to reduce the weight of ceramic parts. - Considering cost reduction for polyimide-based material parts. - Want to make products thinner while minimizing deflection. - Due to increased weight of the workpiece, want to adopt materials with a higher Young's modulus. **Expected Applications of Phenol CFRP** Parts for FPD manufacturing equipment, semiconductor manufacturing equipment, medical device parts, etc. **What Mitsubishi Chemical Can Do** In addition to manufacturing and selling carbon fibers and prepregs, we can also mold, process, assemble, coat, and inspect these materials for delivery. *For more details, please refer to the PDF materials or feel free to contact us.*

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  • fiber
  • Composite Materials
  • Engineering Plastics
  • Fiber Composites

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Introduction of parts using carbon fiber FMC.

Introduction of parts using carbon fiber FMC.

It is possible to accommodate complex-shaped parts, such as automotive suspension arms, which were difficult to manufacture with conventional CFRP.

Achieving lightweight design while maintaining the same fracture strength as conventional aluminum parts! Carbon Fiber FMC (FORGED MOLDING COMPOUND) is a sheet-like intermediate material that impregnates cut high-strength carbon fibers with thermosetting resin. 【Features of FMC Molded Products】 - Press molding is possible, significantly reducing molding time compared to conventional autoclave molding, enabling mass production and cost reduction. - FMC has randomly arranged short carbon fibers, providing high fluidity during molding, allowing for the production of complex shapes that were difficult to manufacture with traditional CFRP. - FMC has a lower specific gravity and higher 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.

  • Composite Materials
  • Fiber Composites

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【Seismic reinforcement achievements available】 Carbon fiber material 'Kabokoma Strand Rod'

【Seismic reinforcement achievements available】 Carbon fiber material 'Kabokoma Strand Rod'

A cutting-edge material that protects structures flexibly with high tensile strength and overwhelming lightness.

This is a carbon fiber (CFRP) material that can be used as reinforcement and suspension materials for structures such as buildings. With the excellent material properties of carbon fiber, it can enhance strength while minimizing the burden on structures. ■Features <Incredibly lightweight> The specific gravity is about 1/5 that of steel. The weight of the material is only 14 kg for 160 m (in the case of φ9.3 mm). <High tensile strength> The tensile strength is about 8 times that of steel bars of the same diameter. Although it looks slim, it is capable of pulling a large bus with just one strand. Cabocoma strand rods are being adopted as a new material for seismic reinforcement applications and design purposes in World Heritage sites, national treasures, designated cultural properties, and factory buildings. During construction, we have received many positive comments regarding its lightness and ease of handling on site. If you would like to see the actual product, we also offer free sample requests, so please feel free to contact us.

  • fiber
  • Fiber Composites

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NCF-Resinply

NCF-Resinply

Introduction of new NCF products applicable to press molding such as continuous compression molding.

Features In terms of design flexibility, there is a notable adaptability regarding specifications such as material selection, layering composition, and stitch design. Additionally, it is possible to continuously manufacture substrates with reinforcing fibers oriented both vertically and horizontally, as well as diagonally, allowing for product proposals tailored to customer requirements. To impart drapeability, the selection of reinforcing fibers and resins for the substrate, design of weight specifications, layering composition, and stitch conditions can facilitate material deformation, or conversely, adjust materials to achieve shape stability under load. Regarding labor-saving in the molding process, in the layering process, there is no need to separately layer or inject resin layers as is common with typical NCFs; instead, cut materials can be directly layered and then heated and pressurized to obtain molded products. As for obtaining molded products with stable quality, NCF-Resinply is a material where the reinforcing fibers (NCF) and resin layers are integrated through stitching, which minimizes disturbances in the orientation of the reinforcing fibers due to resin flow during heating and pressurization, thereby enhancing fiber orientation accuracy. This allows molded products to achieve various physical properties, including the strength and rigidity intended by the designer.

  • Composite Materials
  • Fiber Composites

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Business Introduction: What is "Carbon Composite"?

Business Introduction: What is "Carbon Composite"?

Carbon fiber is a living material that supports future industries and is friendly to both people and the environment.

Carbon composite (CFRP) is a composite material made of carbon fibers and resin (such as epoxy or phenolic), which is much stronger and lighter compared to metal materials (such as steel or aluminum). Additionally, by combining various materials such as fiber direction, the number of fiber laminates, high-strength fibers, aramid fibers, and honeycomb cores (aluminum or Nomex), it achieves even higher rigidity. Its characteristics include excellent properties such as X-ray transparency, dimensional stability, vibration damping, chemical resistance, and electromagnetic shielding. Due to these properties, the range of applications is expected to expand further in the future. ● For more details, please download the catalog or contact us.

  • fiber
  • Fiber Composites

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【Basic Knowledge Material】What are carbon fiber composites necessary for pipe repair?

【Basic Knowledge Material】What are carbon fiber composites necessary for pipe repair?

Widely used as materials for sports applications, as well as for aircraft and automobile bodies!

This document introduces carbon fiber composites necessary for pipe repairs. It provides a detailed explanation of the usage of carbon fiber in Firmonite, including four-directional fibers and thickness, using diagrams. This is a useful reference, so please take a moment to read it. 【Contents】 ■ About carbon fiber ■ Carbon fiber used in Firmonite ■ Four-directional fibers ■ Thickness of carbon fiber *For more details, please download the PDF or feel free to contact us.

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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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Technical documentation on the material properties of films and laminates, as well as precision press processing know-how.

Technical documentation on the material properties of films and laminates, as well as precision press processing know-how.

High thermal conductivity materials (metal base substrates), mica sheets, engineering plastics and super engineering plastics, carbon fiber composites (CFRP, CFRTP)

Our company can handle everything from thin films to thick laminated boards. Additionally, since we manufacture our own molds, we can flexibly respond to customer requests in terms of delivery time and cost. We are committed to continuously challenging ourselves with materials we have never processed before, so if you are having difficulties with non-metallic material processing, please feel free to consult us. This document introduces examples of materials we handle. It includes high thermal conductivity materials (metal base substrates) consisting of aluminum on the surface and a resin insulation layer in the core, as well as mica sheets formed from natural minerals. We outline the characteristics, advantages, and disadvantages of each material, along with our solutions, so please use this information when considering implementation. [Contents] ■ High thermal conductivity materials (metal base substrates) ■ Mica sheets ■ Engineering plastics and super engineering plastics ■ Carbon fiber composites (CFRP, CFRTP) *For more details, please refer to the PDF document or feel free to contact us.

  • Composite Materials
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Overview of CFRP Processing Customization Menu

Overview of CFRP Processing Customization Menu

You can choose the prepreg, surface weaving method, and finish according to your preferences! Customization allows for meticulous carbon (CFRP) processing.

At Carbon Lab.jp, you can customize your preferred specifications when requesting carbon (CFRP) processing. ■ Types of Prepreg - Standard... Surface layer 3k fabric, inner layer UD material - All UD... Both surface and inner layers are UD material - All Fabric... Both surface and inner layers are 3k fabric Carbon is formed by layering sheets of carbon fiber called "prepreg," impregnating them with resin, and curing them with heat. ■ Surface Weave Structure - Twill (Standard)... A weaving method that skips one bundle of carbon fibers - Plain Weave... A weaving method that alternates bundles of carbon fibers ■ Surface Finish Matte Finish (Standard)... A finish with a sophisticated impression Glossy Finish... A luxurious finish (however, scratches and marks are more noticeable) For more details, please refer to the PDF document or feel free to contact us through the official website. Official website: https://cfrp-japan.com/ Additionally, we offer free carbon sample parts for those who want to know about processing quality and strength. You can apply for the free samples through the link below.

  • plastic
  • Fiber Composites

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Pitch-based carbon fiber composite "Diarid Composite"

Pitch-based carbon fiber composite "Diarid Composite"

The specific gravity is less than 1/4 that of iron! A composite material that allows for high rigidity and thin design that surpasses iron.

"Diaryl Composite" expands the design flexibility in various industrial fields due to the lightweight and high rigidity characteristics of pitch-based carbon fibers, offering excellent vibration damping and improved dangerous rotational speeds. It has higher thermal dimensional stability than metals and allows for zero thermal expansion coefficient design. It possesses the characteristics of plastic and is not affected by magnetic forces. One of its features is a higher thermal conductivity compared to general plastics. 【Features】 ■ Lightweight ■ High rigidity ■ High thermal conductivity ■ Low thermal expansion ■ Non-magnetic *For more details, please refer to the PDF materials or feel free to contact us.

  • Composite Materials
  • Other polymer materials
  • Fiber Composites

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What are the benefits of using "Phenol CF-SMC"?

What are the benefits of using "Phenol CF-SMC"?

With 'Phenol CF-SMC', which has heat resistance above 300℃, it is possible to reduce the weight of parts used in high-temperature environments! Complex shapes can also be molded!

Phenol CF-SMC is a composite material made of carbon fibers (short fibers) and phenolic resin. Phenolic resin has high heat resistance (over 300°C) and can be used in high-temperature environments that conventional CFRP (epoxy resin) cannot handle. It also meets the fire resistance evaluation standards for railway applications. **Benefits of using Phenol CF-SMC:** - Higher heat resistance compared to epoxy resin (over 300°C), allowing for use in high-temperature environments. - Lightweight due to low specific gravity, enabling weight reduction of aluminum and SUS. - Allows for lightweight design of parts requiring fire resistance. - Capable of molding complex product shapes through pressing. **Common needs:** - Desire to reduce the weight of aluminum or SUS parts used in high-temperature environments. - Need to lighten parts that require fire resistance. **Expected applications of Phenol CF-SMC:** Components for aircraft, automobiles, railway vehicles, machine tools, thermal protection materials, etc. **What Mitsubishi Chemical can offer:** In addition to the manufacturing and sales of carbon fibers and prepregs, we can also handle molding, processing, assembly, coating, and inspection of these materials for delivery. *For more details, please refer to the PDF document or feel free to contact us.*

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  • Composite Materials
  • Engineering Plastics
  • Fiber Composites

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High heat-resistant carbon fiber composite materials! Comparison of physical properties of C/C and C/SiC.

High heat-resistant carbon fiber composite materials! Comparison of physical properties of C/C and C/SiC.

Materials such as "C/C" and "C/SiC" can be used to reduce weight, decrease deflection, and improve vibration damping in components used in high-temperature environments above 800℃!

C/C composites are composite materials made of carbon fibers and carbon, while C/SiC composites are made of carbon fibers and SiC. Many carbon fibers are used as composite materials (CFRP) with resin as the matrix, but the heat resistance of resin has its limits. By using high-temperature treated materials (carbon and SiC) as the matrix, it has become possible to use them in high-temperature environments (800°C). 【Advantages】 ■ High heat resistance (800°C), enabling use in high-temperature environments ■ High specific modulus (modulus of elasticity ÷ weight), allowing for lightweight components, thin-walled designs, and reduced deflection ■ High thermal conductivity, enabling lightweight heat dissipation components 【Common Needs】 ■ Want to reduce the weight of parts made from heat-resistant materials (ceramics, isotropic graphite) ■ Want to minimize deflection due to limited space ■ Want to use materials with high Young's modulus 【Main Applications】 Parts for FPD manufacturing equipment, semiconductor manufacturing equipment, brake components, etc. 【What Mitsubishi Chemical Can Do】 In addition to manufacturing and selling carbon fibers and prepregs, we can also perform shaping, processing, assembly, coating, and inspection of these materials, and deliver them. *For more details, please refer to the PDF document or feel free to contact us.

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  • fiber
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Carbon Fiber Reinforced Polymer (CFRP)

Carbon Fiber Reinforced Polymer (CFRP)

Composite of lightweight polymers and high-strength carbon fibers!

Carbon Fiber Reinforced Polymer (CFRP) is a composite material made by combining lightweight polymers with lightweight, high-strength carbon fibers. The strength is enhanced through stress transfer between fibers mediated by the interface and matrix, allowing more fibers to effectively carry the load, contributing to strength development that exceeds the breaking strength of individual fibers (filaments). [Related Contract Services] ■ Evaluation and Modification of Matrix Resins - Epoxy Resins (impregnation, curing, properties of cured resins, processing considerations) - Thermoplastic Resins (flowability, impregnation, resin properties, resin modification) ■ Prototype and Improvement Studies of Prepregs and Composites - Impregnation and Lamination Conditions (vacuum press) - Interlaminar Adhesion, Toughness Improvement ■ Evaluation Testing of Composites - Mechanical Properties (tensile, compression, bending, shear, impact) - Composition (CF content, matrix resin analysis, residual fiber length) - Durability (thermal aging, heat cycles, fatigue properties) - Adhesion with Other Materials (adhesive bonding, insert molding) *For more details, please download the PDF or feel free to contact us.

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[Research Material] Global Market for Carbon Fiber Composites for Prosthetics

[Research Material] Global Market for Carbon Fiber Composites for Prosthetics

Global Market for Carbon Fiber Composite Materials for Prosthetics: Conventional, Electric, Hybrid Orthopedic Prosthetics, Upper Limb Prosthetics, Lower Limb Prosthetics, Sockets ...

This research report (Global Carbon Fibre Composites for Prosthetics Mar) investigates and analyzes the current state and outlook for the global market of carbon fiber composites for prosthetics over the next five years. It includes information on the overview of the global market for carbon fiber composites for prosthetics, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the carbon fiber composites for prosthetics market include conventional, electric, and hybrid orthopedic prosthetics, while the segments by application cover upper limb prosthetics, lower limb prosthetics, sockets, and modular components. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size for carbon fiber composites for prosthetics. It also includes the market share of major companies in carbon fiber composites for prosthetics, product and business overviews, and sales performance.

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  • Fiber Composites

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[Research Material] Global Market for Carbon Fibers for Automotive Composite Materials

[Research Material] Global Market for Carbon Fibers for Automotive Composite Materials

Global Market for Carbon Fibers for Automotive Composite Materials: Long Fiber Thermoplastic Plastics, Sheet Molding Composites, Prepregs, Short Fiber Thermoplastics ...

This research report (Global Carbon Fiber in Automotive Composites Market) investigates and analyzes the current status and outlook for the global market of carbon fiber for automotive composites over the next five years. It includes information on the overview of the global carbon fiber market for automotive composites, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The market segments for carbon fiber in automotive composites by type include long fiber thermoplastic, sheet molding composites, prepreg, short fiber thermoplastic, and others. The segments by application include exterior components, interior components, structural & powertrain, chassis systems, and others. The regional segments are divided into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size for carbon fiber in automotive composites. The market share of major companies in carbon fiber for automotive composites, product and business overviews, and sales...

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Fundamentals of fiber-reinforced composites and molding methods, technologies for enhancing functionality.

Fundamentals of fiber-reinforced composites and molding methods, technologies for enhancing functionality.

★Explanation of know-how regarding the constituent materials of fiber-reinforced composites, molding methods for fiber-reinforced composites, improvement of heat resistance, enhancement of fire resistance, and increase in damage tolerance in a Q&A format!

Speaker Yoshiaki Someya, Representative of Shonan Material Technology Part-time lecturer at Shonan Institute of Technology, Technical Advisor at Best Link Trading Co., Ltd., Technical Advisor at OSE Co., Ltd. [Publications and Awards] Dictionary of Composite Material Utilization and Intermediate Materials (edited by the Japan Society for Composite Materials), Achievement Award from the Advanced Materials Technology Association Target Audience: Engineers, researchers, and beginners interested in fiber-reinforced composite materials Venue: Kawasaki City International Exchange Center, Conference Room 1 [Kanagawa, Kawasaki] 10-12 minutes walk from "Motosumiyoshi Station" on the Tokyu Toyoko Line and Tokyu Meguro Line Date and Time: June 22, 2011 (Wednesday) 13:00-16:30 Capacity: 30 people *Registration will close once full. Please apply early. Participation Fee: 46,200 yen (tax included, including text costs) for up to 2 people from one company ⇒ ◆ The invoice for 2 people can be split into 2 parts (please indicate "invoice split" in the remarks section) *New members who register for the first time by June 8 will receive an early bird discount price of 40,950 yen ◆ If 3 people from the same organization apply, the fee is 67,200 yen.

  • Company:AndTech
  • Price:10,000 yen-100,000 yen
  • Technical Seminar
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[Research Material] Global Market for Construction Composite Materials

[Research Material] Global Market for Construction Composite Materials

World Market for Construction Composites: Fibers, Resins, Industrial, Commercial, Residential, Civil Use

This research report (Global Construction Composites Market) investigates and analyzes the current state and outlook for the global construction composites market over the next five years. It includes information on the overview of the global construction composites market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the construction composites market focus on fibers and resins, while the segments by application target industrial, commercial, residential, and civil uses. The regional segments are divided into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa to calculate the market size of construction composites. It also includes the market share of major companies in the construction composites sector, product and business overviews, and sales performance.

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[Research Material] Global Market for Composite Material Repair and Reconstruction in the Construction Industry

[Research Material] Global Market for Composite Material Repair and Reconstruction in the Construction Industry

Global Market for Composite Material Repair and Reconstruction in the Construction Industry: Carbon Fiber Composites, Glass Fiber Composites, etc., for Civil Infrastructure, Existing and Historical Buildings, Parking ...

This research report (Global Composites Repair and Rehab Market) investigates and analyzes the current status and outlook for the global market of composite materials repair and rehabilitation for the construction industry over the next five years. It includes information on the overview of the global composite materials repair and rehabilitation market for the construction industry, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the composite materials repair and rehabilitation market for the construction industry focus on carbon fiber composites, glass fiber composites, and others, while the segments by application target civil infrastructure, existing and historical buildings, parking structures, and others. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size for composite materials repair and rehabilitation in the construction industry. It also includes the market share of major companies in the composite materials repair and rehabilitation market for the construction industry, product and business overviews, and sales performance.

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[Research Material] Global Market for Natural Fiber Composites

[Research Material] Global Market for Natural Fiber Composites

Global Market for Natural Fiber Composites: Wood Fibers, Non-Wood Fibers, Construction & Building, Automotive, Electrical & Electronics

This research report (Global Natural Fiber Composites Market) investigates and analyzes the current state and outlook for the global natural fiber composites market over the next five years. It includes information on the overview of the global natural fiber composites market, trends of major companies (sales, selling prices, market share), market size by segment, market size by key regions, and distribution channel analysis. The segments by type in the natural fiber composites market focus on wood fibers and non-wood fibers, while the segments by application target construction, automotive, and electrical/electronic uses. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa to calculate the market size of natural fiber composites. It also includes the market share of major companies in the natural fiber composites sector, product and business overviews, and sales performance.

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