Composites Product List and Ranking from 101 Manufacturers, Suppliers and Companies

I tried investigating the strength of 3 types of materials × SETFIL!

[Mitarepo] 3 types of materials × Carbon 3D printing! We investigated how much the strength changes with different materials! | System Create

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" From the wide range of product genres handled by System Create, we deliver useful information each time. In Vol. 101, we used the carbon composite 3D printer "Composer" to create strength test specimens made from three types of materials: "ABS," "ASA," and "PLA-CF" combined with carbon. We investigated the changes in strength due to the differences in materials. In Mitarepo Vol. 93, we introduced the results of strength tests on models created by blending long fiber carbon material "SETFIL" with PETG. After publication, we received requests from customers who viewed the materials, saying, "I want to see the verification results with other materials!" So, we created test specimens using three types of materials: "ABS," "ASA," and "PLA-CF." We conducted "tensile tests," "bending tests," and "Charpy impact tests" to examine the changes in strength due to the differences in materials! In this document, we will present these test results categorized by material all at once! *You can download the materials using the button below.

Company：システムクリエイト
Price：Other

3D measuring device
3D CAD
Analytical Equipment and Devices
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Composite material "GFRP"

Excellent radio wave permeability, design, and chemical resistance! It is widely used in antenna covers and chemical plants.

"GFRP" stands for Glass Fiber Reinforced Plastics, which is a composite material made of glass fibers as reinforcement and thermosetting resin as the matrix. The main characteristics of GFRP include: ■ Excellent radio wave permeability ■ High design flexibility ■ Superior electrical properties ■ Excellent corrosion resistance It is possible to commercialize exterior parts with excellent design at a low initial cost. *For more details, please refer to the PDF document or feel free to contact us.

Company：TIP composite Co., Ltd.
Price：Other

Composite Materials
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"J106S・J116S" (EP) low linear expansion low shrinkage composite material

High precision × no machining × mass production compatible. Leave the resin processing of precision parts to us.

The "Epoclustar J106S/J116S" is an epoxy resin-based composite material (plastic) developed by our company using a unique kneading technology. It can mass-produce high-precision parts without the need for post-processing, and is currently widely adopted in mechanical components for imaging equipment and industrial machinery. 【Features】 ■ Achieve precision parts like those made by cutting processing through injection molding! With a molding shrinkage rate of 0.03% (J106S) and a linear expansion coefficient of 9ppm (J106S), we have realized precision molding at the micron level. ■ Wide design flexibility leveraging the properties of the resin! Utilizing the characteristics of thermosetting resin, complex designs such as thin walls without material loss and varying wall thicknesses are possible. ■ Many applications in fields requiring chemical resistance! It is used in various fields where chemical resistance is required, such as in the liquid-contact parts of inkjet printers. ■ Customize resin materials according to required properties! In addition to high precision, various functional enhancements such as thermal conductivity and low water absorption are possible. For more details, please refer to the catalog, and feel free to contact us. *This product is provided as molded products processed by our company. Please note that we do not sell the material alone.

Company：クラスターテクノロジー本社
Price：Other

plastic
Engineering Plastics
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"J101" (EP) High Sliding Conductive Composite Material

The molding shrinkage is extremely small! A composite material that allows injection molding under stable conditions.

"Epoclustar J101" is an organic-inorganic micro-composite that leverages the synergistic effects of layered inorganic compounds and organic materials. It is a thermosetting injection molding material modified with epoxy resin, possessing excellent moldability, mechanical properties, and thermal characteristics, and it has dimensional stability that is unparalleled among existing resins. It is widely used for ultra-precision molded products that require micron-order accuracy. 【Features】 ○ Excellent sliding properties ○ Possibility of weight reduction (about half that of aluminum, lighter than magnesium alloys) ○ Excellent creep resistance ○ High strength and high elasticity ○ Superior surface smoothness For more details, please contact us or download the catalog.

Company：クラスターテクノロジー本社
Price：Other

Composite Materials
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plastic
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"CPS38" (PPS) Low linear expansion and low molding shrinkage composite material

Low thermal expansion and low molding shrinkage for excellent surface accuracy! High-precision new grade PPS.

"EpoclusT T CPS38" is a composite material with good chemical resistance for thermoplastic ultra-precision molding. It achieves low anisotropy, low thermal expansion, and low molding shrinkage. With good mold transferability and minimal flatness, it is ideal for high-precision parts. Additionally, it possesses the excellent mechanical properties of PPS. 【Features】 ○ High precision ○ Good chemical resistance ○ Customizable according to application For more details, please contact us or download the catalog.

Company：クラスターテクノロジー本社
Price：Other

Composite Materials
plastic
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"Courier" (EP) Insulating High Thermal Conductivity Composite Material

This is a material developed to address challenges such as "high thermal conductivity, metal adhesion, low-temperature curing, and low-pressure molding." We can provide proposals that include customization.

"Epoclustar Coolie" is a solid sealing material developed for transfer molding based on epoxy resin. It is a custom material unique to our company, designed for semiconductor, motor, and coil sealing applications. 【Achievements】 - High thermal conductivity grades (1–6 W/m·K) - Metal adhesion properties (Ni, Al, Au, Cu, Ag, etc.) - Grades suitable for thin-walled molding *The catalog includes representative grades. We can also propose materials outside of the catalog depending on your application, so please feel free to contact us.

Company：クラスターテクノロジー本社
Price：Other

Engineering Plastics
plastic
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"CBT305FG" (PBT) High precision, low molding variation composite material

High precision, low molding variation PBT material

The "Epoclustar T CBT305FG" is a composite material for high-precision thermoplastic molding that reduces defects and cost increases due to post-processing by achieving high precision and low molding variation. There is also a high-rigidity grade, CBT41. Due to its low anisotropy and low molding shrinkage rate, it is a material that offers higher precision and less warping compared to general-purpose PBT. Utilizing these features, it has become possible to provide high-precision parts that are difficult to achieve with general-purpose PBT. Because of its high precision and low variation in molded products, the defect rate for high-precision parts is low, making post-processing unnecessary, which leads to reduced labor and contributes to increased productivity and cost reduction.

Company：クラスターテクノロジー本社
Price：Other

plastic
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"J101" (EP) High Sliding Conductive Composite Material

High mobility × high precision × design flexibility; leave the resinization of precision parts to us.

"Epocluseter J101" is a conductive epoxy resin composite material (plastic) developed by our company using a unique kneading technology based on epoxy resin. We can provide customized proposals according to the required characteristics. [Features] ■ High sliding properties and wear resistance By incorporating carbon fiber, we have achieved a low friction coefficient and high wear resistance. ■ Excellent isotropic dimensional accuracy With minimal molding shrinkage and reduced anisotropy, we can produce precision parts under stable conditions. ■ Wide design flexibility utilizing the properties of the resin Taking advantage of the characteristics of thermosetting resin, complex designs such as thin walls without material loss and variable thickness are possible. ■ Customization of resin materials according to required characteristics Not only high precision but also various functional enhancements such as thermal conductivity and low water absorption are possible. For more details, please refer to the catalog, and feel free to contact us. *This product will be provided as molded products processed by our company. Please note that we do not sell the material alone.

Company：クラスターテクノロジー本社
Price：Other

Composite Materials
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plastic
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Graphene Hybrid Composite Material GHC

Achieving further performance improvements over conventional graphene! The use of a soluble type significantly expands the range of application fields!

Higher electrical conductivity and thermal conductivity than metals and graphene. Higher chemical stability (corrosion resistance) than metals.

Company：エア・ブラウン営業開発部
Price：Other

Organic Natural Materials
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High conductivity CNT resin composite material

Using our long CNTs makes it easier to form conductive networks, and the ST effect becomes more pronounced.

Our company is not currently engaged in mass production of CNT resin composite materials, but we are accepting requests for prototype development, verification experiments, joint research, joint development, and technical consulting utilizing the ST effect in CNT resin composite materials.

Company：マイクロフェーズ
Price：Other

Other polymer materials
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Nanocomposite materials that generate hydrogen from water.

By simply placing a nanocomposite of nano-aluminum and carbon nanotubes in water, a large amount of hydrogen gas is generated.

By impregnating aluminum into the surface and gaps of carbon nanotubes, highly active nano-aluminum is formed. When this composite material is placed in water or hot water, the highly active nano-aluminum reacts with the water to produce hydrogen, achieving a hydrogen generation rate close to the theoretical value. Although it is a one-time reaction, it enables the generation of hydrogen gas on-site regardless of location and allows for the effective reuse of waste aluminum materials.

Company：マイクロフェーズ
Price：Other

aluminum
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【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.

Company：小松マテーレ
Price：Other

fiber
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Soft magnetic composite material (SMC) "Somaloy(R)" for automotive motor applications.

A must-see for those struggling with miniaturizing motors! Ideal for pancake structure high-torque ultra-flat axial gap motors, etc.!

"Somaloy(R)" is a soft magnetic material made from pure iron powder that has been developed and insulated by our company. We enable innovative motor designs that are not constrained by the limitations of electromagnetic steel sheets, providing solutions to many challenges faced by our customers. 【Matching of Axial Gap Motors (Axial Flux Motors) Topology with "Somaloy(R)"】　　■ Net shaping (3D mechanical shapes that can be "unidirectionally pressed") 　　■ Realization of freedom in 3D magnetic circuit design 　　　☆ Achieving compact, lightweight, and low-cost designs that were difficult with conventional electromagnetic steel sheets☆ 【Grades】　Covers from below 100Hz to 100kHz 【Examples of Advantages for Electric Motors】　 Reduces dimensions and weight by up to 60% ☆ Technical design support for axial gap motors is also underway☆ 　・ 3D magnetic circuit analysis using JMAG 　・ 3D CAD modeling 　・ Optimization using Mode Frontier 　・ Winding design 　・ Strength analysis 　　 We will design according to your requirements. Please feel free to contact us. 　★ Catalogs for axial gap motors using "Somaloy(R)" are currently being distributed ★

Company：ヘガネスジャパン
Price：Other

Steel
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Soft magnetic composite (SMC) material 'Somaloy(R)' vehicle-mounted reactor

Achieving alloy-level low loss with pure iron-based powder!

"Somaloy(R)" is a soft magnetic material made of pure iron powder with an insulating coating, developed by our company ahead of the world. [Main Needs for Automotive Reactors] - Low cost - Low loss - Miniaturization [Features and Benefits of Somaloy] - Each particle of pure iron base powder is coated with an insulating layer, significantly reducing eddy current loss in the high-frequency range. - Being based on pure iron, it achieves high compressibility and easy handling, resulting in improved manufacturing efficiency. [Suitable Application Examples] - Boost reactors for DC/DC converters There is a proven track record of mass production of automotive boost reactors using "Somaloy(R)"! ★ We are currently offering the "Somaloy(R)" catalog without exception! ★ If you have any questions, please feel free to contact us♪

Company：ヘガネスジャパン
Price：Other

Steel
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Soft Magnetic Composite (SMC) 'Somaloy(R)' Overview

Soft magnetic material with an insulating coating applied to pure iron powder! Achieving high frequency (miniaturization) by reducing eddy current losses! ☆ Easy molding of complex shapes ☆

"Somaloy(R)" is a soft magnetic material made of pure iron powder with an insulating coating, developed by our company as a world first. It enables the manufacturing of cores with three-dimensional shapes and three-dimensional magnetic properties through mold forming. It is particularly useful for the development and manufacturing of high-spec soft magnetic cores required for miniaturization and high output in applications such as electric vehicles. 【Features】 - High compressibility allows for high permeability. - Enables three-dimensional magnetic circuit design, achieving miniaturization, lightweight, and cost reduction of products. - An insulating coating on pure iron powder results in low eddy current loss characteristics, achieving high efficiency in high-frequency ranges! - Complex shapes can be formed without secondary processing through net shaping (three-dimensional mechanical shapes that can be formed with uniaxial pressure). 【Grades】 - We offer a range of products covering frequencies from 100Hz for motor applications to up to 100kHz for reactor applications. ★ A catalog of "Somaloy(R)" is available for download via the button below.

Company：ヘガネスジャパン
Price：Other

Other metal materials
electromagnet
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Control extended composite material

Optimal thermal management solutions for advanced applications requiring high reliability and high performance.

Spectramat is a leading manufacturer of heat spreaders (LEC). Heat spreaders provide thermal management solutions for cutting-edge applications that require high reliability and high performance. Spectramat applies its 45 years of expertise in heat-resistant material technology to meet the most demanding requirements in microelectronics, optoelectronics, solar cells, power electronics, aerospace, defense, and the medical industry.

Company：サエス・ゲッターズ・エス・ピー・エー日本支店
Price：Other

alloy
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Core material - Chopped Strand Mat Composite "RobiCore"

It can be molded into corners and complex shapes, allowing for time savings and reduced labor costs! There is a wide variety of thicknesses available.

"Robicoar" is a composite material made of a core material with good shape conformity and chopped strand mat. The core material is made of non-woven fabric composed of thick diameter synthetic fibers, sandwiched with chopped strand glass (without using chemical binders) and sewn together with thread. The extensive lineup can accommodate any closed mold forming method and contributes to improved productivity. It can provide sufficient strength in all areas without exception, making it possible to create any type of part. 【Features】 ■ Can be molded into corners and complex shapes, allowing for time savings and reduced labor ■ Available in a wide variety of thicknesses, requiring only a single layer ■ High core resilience and compressibility, adaptable to parts of any thickness ■ Chopped strands are evenly distributed, resulting in excellent appearance of molded products ■ Good wettability without using chemical binders in the mat, allowing for quick impregnation *For more details, please refer to the PDF document or feel free to contact us.

Company：エフ・アール・ピー・サービス国内材料部
Price：Other

Composite Materials
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[Examples of Diffusion Bonding Adaptation] Low Thermal Expansion High Thermal Conductivity Materials

Constructed with a core and core plate! Introducing a composite material that achieves both thermal conductivity and low thermal expansion rate.

We would like to introduce an example of diffusion bonding application for our "low thermal expansion high thermal conductivity material." It consists of a columnar body that facilitates heat transfer in the direction perpendicular to the surface, and a plate that suppresses the thermal expansion coefficient in the plane. The thermal conductivity is approximately 280 W/mK, and the in-plane thermal expansion coefficient is 5 to 10 ppm/K, making it a composite material that balances thermal conductivity and low thermal expansion. 【Features】 ■ Thermal conductivity: Approximately 280 W/mK ■ In-plane thermal expansion coefficient: 5 to 10 ppm/K ■ A composite material that balances thermal conductivity and low thermal expansion ■ Composed of a core and core plate *For more details, please refer to the PDF document or feel free to contact us.

Company：WELCON 本社
Price：Other

Heat exchanger
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air conditioning
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Comproid CC

The industry's first pseudo-isotropic super high thermal conductivity composite material with 1700 W/mk that can control heat transfer in all directions: X-Y-Z!

CompoLloid CC is a composite product made from carbon composites, allowing for size increase by bonding high thermal conductivity graphite, which serves as the core substrate. There are two types of products: large-area vertical (Z-direction) high thermal conductivity graphite plates and pseudo-isotropic thermal conductivity graphite plate products that can conduct heat in all directions (X-Y-Z). It is also possible to create double composite products such as gold plating or copper plate bonding. We will solve the problems of customers who have issues with anisotropy. Please let us know your size and shape requirements.

Company：サーモグラフィティクス
Price：Other

Other metal materials
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Electrode composite material "Toyal Carbo"

Achieving ultimate low resistance! Aluminum foil with carbon particles fixed without a binder.

"Toyal Carbo" is an original product that successfully adheres carbon particles to the surface of aluminum foil without the presence of organic binders (adhesives) by applying a unique whisker generation technology. When used in the electrodes of capacitors, which are its main application, it achieves extremely low resistance and high capacitance. [Features] - Fixes carbon particles to the foil surface without a binder → Reduces electrical resistance - Excellent heat resistance → Maintains adhesion and bonding strength even at high temperatures *For more details, please refer to the catalog, and feel free to contact us.

Company：東洋アルミニウム
Price：Other

aluminum
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Electrode composite material "Toyal Titan"

Half the thickness with 8 times the capacitance! Aluminum foil with organic binder-free titanium dioxide (TiO2) particles adhered.

"Toyal Titan" is an original product that successfully applies unique whisker generation technology to adhere titania particles to the surface of aluminum foil without the presence of an organic binder (adhesive). When used as electrodes in capacitors, its main application, it can achieve higher capacitance compared to conventional etched foils. 【Features】 ■ Nano-scale titania particles fixed to the foil surface without a binder → Increased surface area of titania particles leads to higher capacitance ■ Excellent water resistance → Maintains high capacitance even after long immersion in pure water at 100°C *For more details, please refer to the catalog or feel free to contact us.

Company：東洋アルミニウム
Price：Other

aluminum
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[English Market Research Report] Global Market for Composite Materials in Railways

"Free samples" are currently being offered! Please check the application method from the [PDF download] button or apply directly from the related links.

The market size for railway composite materials is expected to expand at a CAGR of 7.2% during the forecast period, growing from 1.7 billion USD in 2023 to 2.4 billion USD by 2028. This report investigates the global railway composite materials market, summarizing trends by fiber type, resin type, manufacturing process, application, and region, as well as profiles of companies entering the market.

Company：グローバルインフォメーション
Price：500,000 yen-1 million yen

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Composite material "FRP"

Improving strength by adding glass fibers and other materials to plastic! Composite materials with various properties!

"FRP" is a composite material that enhances strength by incorporating glass fibers, carbon fibers, and carbon into plastic. It is lightweight yet strong, excels in chemical resistance, electrical insulation, and thermal insulation, and can also possess light transmittance. Additionally, it features elastic deformation until failure and a high degree of freedom in shape design. It is used in the interiors and exteriors of automobiles and railway vehicles, aerodynamics, unit baths, etc. While the finish is often smooth, it is also possible to replicate textures and surfaces close to real stone, rock, bamboo, etc., by using molds of these materials. Since it can be molded from silicone molds, FRP molds, wooden molds, rubber molds, etc., it is particularly useful for producing multiple products of the same shape. [Features] - Composite material that enhances strength by incorporating glass fibers and carbon fibers into plastic - Lightweight and strong - Excellent chemical resistance, electrical insulation, and thermal insulation - Can possess light transmittance - High degree of freedom in shape design - Elastic deformation until failure *For more details, please refer to the PDF document or feel free to contact us.

Company：環境造形
Price：Other

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Composite materials "GRC・GRG"

A composite material reinforced by mixing glass fibers with cement and gypsum! Complex details are possible.

"GRC" is a composite material reinforced by mixing glass fibers with cement or cement mortar. It has high flexural strength and can be made thinner compared to PC, allowing for lightweight components. Additionally, since it is molded using forms, it enables complex details and expressions. In curtain wall and marion construction, calculations for wind pressure resistance and interlayer displacement compliance are also performed, advancing hardware design and component design. Furthermore, it is possible to attach tiles and stones, and there are achievements in tile finishing for monuments in environmental shaping. There is also a lighter and more affordable composite material called "GRG," which is reinforced by mixing glass fibers with gypsum. 【Features】 <GRC> ■ A composite material reinforced by mixing glass fibers with cement or cement mortar ■ High flexural strength, can be made thinner compared to PC, allowing for lightweight components ■ Enables complex details and expressions due to molding with forms ■ Capable of attaching tiles and stones ■ Proven track record of tile finishing for monuments *For more details, please refer to the PDF document or feel free to contact us.

Company：環境造形
Price：Other

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BIS Business Description

Soft to hard in one go.

We provide comprehensive and specific services from software (planning, research, design, etc.) to the management and delivery of hardware (product manufacturing, equipment installation).

Company：ビーアイエス
Price：Other

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Tohoku University Technology: Metal / ceramic composite material: T16-100

Possible to produce high laser absorption metal powder with finely dispersed ceramic on the surface, and metal/ceramic composite material having complex shape!

Metal and ceramic repel each other when mixing due to their positive surface charge. So since they are dispersed away, the composite can not be formed. The conventional technology uses a binder composed mainly of polyvinyl alcohol to glue metal and ceramic. This is then sintered in order to make a composite powder. 　However, the binder reduces the functionality due to compositional change (specifically, mechanical property deterioration, optical absorbance decrease, etc.) and handling during production is difficult. 　This invention is able to easily make ceramic / metal composite by using carbon nanotube (CNT). Application of various powder to bulk material is expected, such as sintered material and composite material by 3D printer. It is also possible to create a pure composite of metal / CNT, and this technology is expected to improve the antioxidation property of the base metal material.

Company：Tohoku Techno Arch Co., Ltd.
Price：Other

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Tohoku University Technology: Functional piezoelectric material: T21-003

It is possible to harvest energy from vibration as well as impact

Energy harvesting devices that can convert mechanical energy such as heat, wind, and vibration etc. into electrical energy are attracting attention. Piezoelectric material is one of the materials for energy harvesting. It is sensitive to small strains and can be expected to have high power density and voltage. In addition, because it can be made compact, it is the optimum solution as a power supply source of various sizes. The invention is a flexible piezoelectric material formed by mixing piezoelectric polymer and piezoelectric ceramics. Conventionally, piezoelectric ceramics are affected by fatigue cracks when repeatedly subjected to a load, so that it is difficult to secure flexibility by itself. The invention does not require any countermeasures and has an advantage that the applicable range can be expanded.

Company：Tohoku Techno Arch Co., Ltd.
Price：Other

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Tohoku University Technology: Oxide ceramics – carbon composite and its manufacturing process: T15-104

Manufacturing Li4Ti5O12-carbon composite by using microwave at low cost!

Ceramics – carbon composite having multi-function is developed in the recent years. However, the composite is heated at high temperature for a long time during the manufacturing process so the particles are sintering between them and the Li4Ti5O12 nano particles able to generate high power cannot be obtained. Moreover, the synthesis method is complex and uses expensive raw materials so the manufacturing cost is high. 　This invention can provide oxide ceramics – carbon composite and its manufacturing process with reduced cost. This invention manufacturing process is to mix raw material of oxide ceramics made by LiO2 and TiO2 with carbon and fire with microwave in order to create Li4Ti5O12 carbon composite. As result, Li4Ti5O12 crystalline particle which is an oxide ceramics having particle diameter lower than 250nm; and oxide ceramics – carbon composite having above mentionned carbon bond on the crystal plane (111) and (200) of the oxide ceramics – carbon composite were obtained.

Company：Tohoku Techno Arch Co., Ltd.
Price：Other

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Tohoku Univ. Technology ：Functional Pearl-like Multilayer Nanomaterials：T25-050

Efficient and Eco-friendly Mass Production via Yeast and Koji Mold Fermentation

This invention presents a new platform for creating organic-CaCO₃ composite materials with pearl-like multilayer nanostructures using a bio-manufacturing process involving yeast and koji mold. 　Building on prior research into the bio-mineralization of Pteria penguin pearls, the inventors have successfully expressed the related proteins and enzymes in yeast to produce highly controlled multilayer CaCO₃ crystals. High-Performance Materials　：By optimizing the expression of matrix proteins and enzymes, the crystal structure and material properties can be precisely controlled. Sustainability　：The fermentation-based production process enables large-scale manufacturing with minimal environmental impact and low cost.

Company：Tohoku Techno Arch Co., Ltd.
Price：Other

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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.

Company：SHINDO 産業資材事業
Price：Other

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