Last Updated: Aggregation Period:Feb 11, 2026~Mar 10, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Feb 11, 2026~Mar 10, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Feb 11, 2026~Mar 10, 2026
This ranking is based on the number of page views on our site.
31~60 item / All 275 items
![[Example of Use] "MMC Wear-Resistant Liner for Crushing Equipment"](https://image.mono.ipros.com/public/product/image/1d8/2000172807/IPROS16136046892630235774.jpeg?w=280&h=280)
Revolutionary wear-resistant material liner that combines the wear resistance of ceramics with the crack resistance of metals.
By combining SiC and aluminum, we have achieved an increase in fracture toughness while maintaining the wear resistance of ceramics. It is being adopted as a liner material in various crushing equipment. For more details, please download the catalog.
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This is a composite material containing 30-40 vol% SiC ceramic particles in aluminum alloy. It is manufactured using sand casting and die casting methods. By adjusting the SiC content, we can provide materials that meet specific needs. In recent years, there has been a rapid adoption of this material due to the increasing size and speed of equipment. It is being adopted in various fields, including liquid crystal manufacturing equipment, semiconductor manufacturing equipment, and various inspection devices. We are also capable of developing other composite materials, so we kindly ask you to contact us for this opportunity.
![[Example of Use] Enclosure/Casing Metal Ceramic Composite Material](https://image.mono.ipros.com/public/product/image/ef1/2000173018/IPROS85339592105482327303.png?w=280&h=280)
It is a composite material containing SiC ceramic particles in aluminum alloy.
Metal-ceramic composite materials with the rigidity exceeding that of cast iron due to the lightweight of aluminum. Their excellent specific rigidity, high thermal conductivity, and low thermal expansion make them suitable for enclosures. We can meet diverse needs through die casting, gravity casting, and low-pressure casting. We are also capable of developing other composite materials, so please feel free to contact us regarding this opportunity.
φ450 (18 inches) jig, equivalent specific gravity and Young's modulus to Si wafers! Low price!
We have prepared a φ450mm (18-inch) fixture for semiconductor equipment compatible with φ450mm (18-inch) wafers. Since standard Si wafers are still quite expensive and carry a risk of damage, those who are having difficulty using them freely are encouraged to contact us. Please try our composite materials as fixtures for transport tests and adhesion tests.
![[Applicable Case] Semiconductor Manufacturing Equipment Metal Ceramic Composite Material 'MMC'](https://image.mono.ipros.com/public/product/image/7f9/2001480096/IPROS26171273225758000467.jpeg?w=280&h=280)
The joining technology of composite materials MMC has made it possible to expand into new applications.
The manufacturing of hollow structures has become possible by joining MMCs together. It is possible to flow refrigerants or gases through the internal channels formed by the joining technology. MMCs, characterized by high thermal conductivity and low thermal expansion, experience minimal thermal deformation due to temperature changes, preventing adverse effects on the components they are integrated with. <Applications for Cooling Jackets> Prevention of arcing due to reduced thermal expansion differences with alumina ESC, improved etching rates due to high thermal conductivity and low thermal expansion. <Applications for Wafer Chucks> Stable measurements and expanded test temperature ranges due to high rigidity, high thermal conductivity, and low thermal expansion. 【Features of MMC】 ■ Weight comparable to aluminum, about 1/3 that of iron ■ Rigidity equivalent to that of iron and steel, resistant to bending ■ High thermal conductivity and heat dissipation ■ Minimal thermal shrinkage 【Joining Methods】 ● Brazing: Joining using a filler material with a lower melting point than the base material. ● Diffusion bonding: Joining by closely adhering materials and diffusing the atoms at the bonding interface. *Joining of dissimilar materials is also possible (consultation for joinable materials is available). *There is also a track record of joining multiple sheets. For more details, please download the catalog or contact us.
Active in automotive parts such as separators for fuel cells. Excellent heat resistance. Supports small lot production.
"GPS" is a composite material that has been uniformly coated with phenolic resin on graphite using a special method. Various shapes with excellent uniformity can be obtained through thermal compression molding. It has conductivity and electromagnetic wave shielding effects, making it suitable for battery applications. Additionally, it is widely used in mechanical seals, electrodes, brushes, bearings, and more. Our company can accommodate orders from small lots to large lots. [Features] - Excellent storage stability, wear resistance, heat resistance, and oxidation resistance - Good fluidity and dispersibility, making it easy to mix with various raw materials - Good electrical and thermal conductivity - Low thermal expansion and strong against thermal shock *For more details, please refer to the materials. *We provide samples free of charge up to 1kg. Please feel free to contact us.
Introducing a composite paper made by uniformly dispersing CNT and CeNF! *Scheduled to be exhibited at the New Functional Materials Exhibition 2020 and nano tech 2020!
"Carbon Nanotube / Cellulose Nanofiber Composite" is a composite paper made by uniformly dispersing carbon nanotubes (CNT) and cellulose nanofibers (CeNF). 【Features】 ■ Standard CNT (length 0.1–10μm) 50% added paper Thickness 15μm, surface resistance 50–60Ω/□ (volume resistance ~0.08Ωcm) ■ Long CNT (length 150–200μm) 50% added paper Thickness 15μm, surface resistance 5–6Ω/□ (volume resistance ~0.008Ωcm) *For more details, please refer to the PDF document or feel free to contact us.
Composite materials can be made using nitrile rubber and natural rubber latex!
We would like to introduce our "Elastomer Composite Material." This product can be applied to materials that form a latex-like emulsion. Composites can be produced using latex from nitrile rubber or natural rubber. 【Features】 ■ Applicable to materials that form a latex-like emulsion ■ Composites can be produced using latex from nitrile rubber or natural rubber *For more details, please refer to the external link page or feel free to contact us.
Can be used for components of electronic devices that are becoming smaller and thinner. Achieves both magnetism and flexibility with binderless composites.
"Curved Ferrite" is a material that directly combines ferrite with substrates such as copper foil and polyimide. Developed in collaboration with the National Institute of Advanced Industrial Science and Technology using the aerosol deposition method. It achieves suppression of magnetic property degradation without the use of non-magnetic adhesives. The composition of the ferrite layer, the type of substrate, and the thickness of each layer can be widely selected. It also offers high freedom of shape, accommodating miniaturization of devices, and is expected to be applied in various uses such as electromagnetic wave shielding materials. 【Features】 ■ Binder-free, balancing the properties of the substrate and the magnetism of the ferrite ■ Wide selection of thicknesses for the substrate and ferrite ■ Contributes to the miniaturization of integrated circuits and electronic devices ■ Utilizes the aerosol deposition method that takes advantage of room temperature shock curing phenomena *For more details, please refer to the materials. Feel free to contact us with any inquiries.
Environmentally friendly resin made from recycled and regenerated carbon fibers and recycled PET resin!
"Carbon Fiber Reinforced and Modified PET Resin" is a carbon fiber reinforced thermoplastic resin composite material that allows for easy shape extrusion molding due to its high melt viscosity. The base resin used is PET. Additionally, by utilizing recycled carbon fibers and recycled PET resin, this product is also environmentally friendly. 【Features】 ■ Easy shape extrusion molding due to high melt viscosity ■ Use of recycled carbon fibers and recycled PET resin ■ Environmentally compatible *For more details, please refer to the catalog or feel free to contact us.
A resin that allows for easy profile extrusion molding due to high melt viscosity!
"Carbon Fiber Reinforced and Modified PP Resin" is a thermoplastic resin composite material that achieves improved adhesion strength with carbon fibers developed in-house. The high melt viscosity allows for easy profile extrusion molding. Additionally, polypropylene (PP) is used as the base resin. 【Features】 ■ Achieves improved adhesion strength with carbon fibers developed in-house ■ Easy profile extrusion molding due to high melt viscosity ■ Uses polypropylene (PP) as the base resin *For more details, please refer to the catalog or feel free to contact us.
Marine biodegradable composites that improve the molding issues seen in many biodegradable polymers.
"Biofade" is a thermoplastic material that combines biomass powder with biodegradable plastic. The biodegradable plastic used in the composite is primarily derived from biological sources, which enhances the biomass content of the molded products. In the unlikely event that products made from this material are released into the ocean, they do not remain in the environment as microplastics for extended periods like conventional plastics; instead, they biodegrade into carbon dioxide and water. 【Features】 ■ Combination of biomass powder and biodegradable plastic ■ The biodegradable plastic used in the composite is primarily derived from biological sources ■ Enhances the biomass content of molded products ■ Improves moldability issues commonly seen in many biodegradable polymers ■ Enhances practical performance *For more details, please refer to the PDF document or feel free to contact us.
Improvement of toughness and heat resistance of biopolyethylene with the addition of cellulose nanofibers!
Cellulose nanofibers can achieve cost reduction due to their small amount of addition. Bio-polyethylene can reduce carbon dioxide emissions by up to 70% during production and disposal, contributing to carbon negativity. *For more details, please refer to the PDF document or feel free to contact us.
Three-dimensional woven fabrics active in various fields.
"G-TRIX" is a composite material made from fiberglass three-axis woven fabric. This material, composed of inorganic substances, is a moldable non-combustible material that is transparent and light-resistant, and it does not change color. Additionally, it is resistant to deformation, has water-repellent properties, is difficult to get dirty, and is relatively easy to maintain. When exposed to flames, the fiberglass itself is heated and glows red, but its shape and hardness remain unchanged. 【Features】 ■ Moldable non-combustible material ■ Transparent and light-resistant ■ Resistant to deformation ■ Water-repellent and difficult to get dirty ■ Easy maintenance *For more details, please refer to the catalog or feel free to contact us.
Research and development is being conducted aimed at further enhancing the functionality and performance of spaceborne equipment.
"Tri-axial woven composite materials" have a proven track record for antennas used in artificial satellites and exploration vehicles, holding a significant share both domestically and internationally. Currently, we are engaged in research and development of space deployable structures that can be compactly stored for launch and then expanded large in the space environment, as part of next-generation space development technology. Utilizing research results related to space materials technology, antenna technology, and space deployable structures, we have successfully developed experimental devices for scientific observation rockets and the International Space Station. In the future, based on the experience gained from these demonstrations and practical applications, as well as the valuable data obtained, we plan to aim for further high functionality and high performance of space-mounted equipment. [Features] ■ Lightweight mesh structure ■ Excellent shape recovery and dimensional stability ■ In-plane and out-of-plane pseudo-isotropy ■ Low thermal expansion coefficient *For more details, please refer to the PDF document or feel free to contact us.
The mechanical strength of starch-based biodegradable resins, such as tensile strength and elasticity, has improved!
By compounding starch-based biodegradable resin with nanocellulose (cellulose nanofiber: CNF), the mechanical strength such as tensile strength and elastic modulus of the starch-based biodegradable resin is improved. There is also a possibility of enhanced biodegradability, foaming properties, and crystallinity (currently under verification). This product is a certified material by the Japan Biomass Plastic Association for Green Plastic and Biomass Plastic. 【Features】 ■ Compounding starch-based biodegradable resin with nanocellulose ■ Improved mechanical strength such as tensile strength and elastic modulus ■ Certified material by the Japan Biomass Plastic Association for Green Plastic and Biomass Plastic * For more details, please refer to the PDF document or feel free to contact us. * If you would like a paid sample, please inquire.
It is a material made by mixing nanocellulose with various biodegradable plastics.
By compounding PBS with nanocellulose (cellulose nanofiber: CNF), the mechanical strength of PBAT, such as tensile strength and elastic modulus, is improved. There is also a possibility of enhanced biodegradability, foaming properties, and crystallinity. (Currently under verification) This product is a certified material of Green Plastic and Biomass Plastic by the Japan Biomass Plastic Association. 【Features】 ■ Compounding of PBS and nanocellulose ■ Improved mechanical strength such as tensile strength and elastic modulus ■ Certified material of Green Plastic and Biomass Plastic by the Japan Biomass Plastic Association * For more details, please refer to the PDF document or feel free to contact us. * If you would like a paid sample, please inquire.
Effects such as improved crystallinity, foaming properties, and biodegradability have been confirmed!
By compounding PLA with nanocellulose (CNF: cellulose nanofiber), improvements in tensile strength, elastic modulus, and flexural strength have been confirmed. Additionally, more detailed observations using an electron microscope have confirmed that compounding nanocellulose with PLA results in a more uniform and smaller distribution of foaming (pores). This product is a certified material by the Japan Biomass Plastic Association for Green PLA and biomass plastics. 【Features】 ■ Improved tensile strength, elastic modulus, and flexural strength ■ Enhanced crystallinity ■ Improved foamability ■ Increased biodegradability ■ 100% natural-derived materials, petroleum 0 *For more details, please refer to the PDF document or feel free to contact us. *If you would like a paid sample, please inquire.
Lightweight, high rigidity, and usable for various applications! Achieving high functionality in devices.
"MMC material" is a composite material made by combining aluminum alloy with ceramics (SiC). In addition to the lightweight and high thermal conductivity characteristics of conventional aluminum alloys, it also possesses high rigidity, low thermal expansion, and high damping properties, making it highly regarded for various applications ranging from liquid crystal and semiconductor manufacturing equipment parts to automotive and machine tool components. [Features] - Lightweight - High thermal conductivity - High rigidity - Low thermal expansion - High damping *For more details, please refer to the catalog or feel free to contact us.
Customization of injection molding machines is implemented to maximize performance! Proven results with computer cases.
The "Thermoplastic Carbon Fiber Composite (PA6 CF20%)" meets the performance requirements for metal alternative EMI shielding and has a proven track record in computer enclosures. It excels in wear resistance, sliding properties, conductivity, and electromagnetic shielding, while also allowing for design flexibility, lightweight construction, and recyclability. In injection molding, we conduct CAE analysis to propose appropriate product shapes and optimal wall thicknesses. Additionally, with support from material manufacturers, we can provide technical support ranging from material analysis and crack analysis to development assistance and defect countermeasures. 【Features】 ■ High strength and high elasticity ■ Excellent wear resistance and sliding properties ■ Excellent conductivity and electromagnetic shielding ■ Low specific gravity (compared to Al/Mg metals and glass fiber reinforced plastics) ■ Design flexibility, lightweight construction, and recyclability *For more details, please refer to the PDF document or feel free to contact us.
From fiber to plastic for a circular economy. Reusing cotton waste generated in the fiber production process and collected discarded clothing.
This is a composite material made from environmentally friendly biomass resources that incorporate recycled cellulose microfiber derived from cotton. It contributes to the reduction of discarded clothing and the amount of petroleum-based resin used.
Wide-ranging development of prepregs and composite products for industrial and aerospace applications.
We are developing various industrial applications such as civil engineering, construction, medical, and aerospace using raw fibers like carbon fiber, aramid fiber, and glass fiber, as well as prepregs and composite products impregnated with thermosetting resins. In the case of composite molded products, we will advance product development together with our customers from design to prototyping and mass production, starting with the selection of matrix, raw fibers, and molding processes. 【Features】 ■ We provide our processed products in shapes tailored to your needs. *For more details, please contact us or download the PDF to view.
Lightweight, excellent workability and corrosion resistance stainless composite material! Small lot and short delivery time available!
"Alpolic SCM" is a stainless composite panel that uses stainless steel as its surface material. It features the luxurious design and high corrosion resistance of stainless steel, and by making it a composite panel, it can achieve approximately one-third the weight compared to a stainless steel sheet of the same rigidity. It excels in chemical resistance and corrosion resistance, is easy to clean and maintain, and allows for lightweight and diverse processing. It can be used in a wide range of applications, including kitchens (excluding areas near open flames), kitchen pantries, food factories, and hospitals. 【Features】 ■ Chemical resistance and corrosion resistance ■ Excellent bendability ■ Various processing options such as box folding and cylindrical shapes ■ Approximately two-thirds lighter than stainless steel sheets ■ Superior flatness of the panel *For more details, please refer to the PDF document or feel free to contact us.
This is a composite material containing ultra-fine potassium titanate fibers called "Tismo."
The high-performance thermoplastic composite material "Pochicon" is a composite material that incorporates ultra-fine potassium titanate fibers called "Tisumo." It is a thermoplastic material that meets customer needs for applications requiring micro-reinforcement, such as LED reflector parts and camera module components, as well as for high-strength and high-sliding applications like automotive bearing parts. 【Features】 ■ Micro-reinforcement ■ Excellent friction and wear properties ■ Excellent dimensional accuracy and surface smoothness ■ Excellent recyclability *For more details, please refer to the PDF document or feel free to contact us.
High dielectric capacitors that respond to the use of high-frequency bands due to the advancement of information and communication technology!
The "high dielectric poticon" is an advanced composite material that has a high dielectric constant and low dielectric loss due to precise control of dielectric properties. It possesses high dielectric constant/low dielectric loss characteristics in the high-frequency range, along with excellent processability and recyclability typical of thermoplastic resins. Its applications are expanding to advanced information devices such as satellite broadcasting, mobile communications, and high-speed computing. 【Features】 ■ Adjustable relative permittivity ■ Capable of setting relative permittivity between 5 and 15 while maintaining low dielectric loss ■ Extremely excellent scalability and surface smoothness ■ Superior moldability *For more details, please refer to the PDF document or feel free to contact us.
Excellent wear resistance and recyclability! Reinforcement at the micro level is possible for thin and narrow sections. 【Exhibiting at Plastic Japan and Film Tech Japan in October】
We would like to introduce our resin composite material "Pochicon/Wistat." By incorporating potassium titanate fibers "Tismo" and "Dentor" as reinforcing materials, it is possible to provide micro-level reinforcement in thin and narrow sections of molded products. Additionally, molded products made with this material have high mold transferability, resulting in a smooth mirror-like surface. The improvement in dimensional accuracy makes it suitable for precision parts, sliding parts, plated parts, and aesthetic parts. 【Features】 ■ Micro reinforcement capability ■ Excellent friction and wear resistance ■ Excellent recyclability ■ Excellent dimensional accuracy and stability ■ Extreme surface smoothness *For more details, please refer to the PDF document or feel free to contact us.
Composite material using natural tamarind seed gum. Developed in-house at MP Gokyo FC, a coating agent and film that are both biodegradable and edible!
Tamarind seed gum composites possess the biodegradability of CNF and the edible characteristics of tamarind gum. Utilizing these features, applications as edible inks and paper coatings, as well as edible films and biodegradable sheets, are expected. In light of recent environmental initiatives, we aim to leverage our expertise in developing thickening polysaccharides to introduce tamarind seed gum composites across various industries. 【Features of Tamarind Seed Gum】 - Anionic polysaccharides derived from tamarind seeds - Main chain composed of glucose, with side chains of xylose and galactose - Molecular weight of approximately 470,000 - Excellent heat and acid resistance - Film-forming properties - Gas barrier properties - Upcycled raw material and edible - Biodegradable material *For more details, please refer to the PDF document or feel free to contact us.
![[Usage Example] CCM (Carbon Fiber Reinforced Carbon Composite) Brazing Jig](https://image.mono.ipros.com/public/product/image/e6e/2000400321/IPROS2587279301893845876.jpg?w=280&h=280)
Lightweight, highly tough, and resistant to thermal deformation CCM! Introduction of examples using it in brazing jigs.
We offer a material called 'CCM (Carbon Fiber Reinforced Carbon Composite)' that is lightweight, highly tough, and resistant to thermal deformation. CCM can be applied to brazing jigs and can be designed to fit various product shapes. We can accommodate 3D-CAD design. 【Features of CCM】 ■ Lightweight ■ High toughness and resistant to cracking ■ Resistant to thermal deformation ■ Structure similar to reinforced concrete *For more details, please refer to the PDF document or feel free to contact us.
Lightweight, highly tough, and resistant to thermal deformation CCM! We will introduce detailed features and usage examples.
We offer a material called 'CCM (Carbon Fiber Reinforced Carbon Composite)', which is lightweight, highly tough, and resistant to thermal deformation. CCM can be used for trays, baskets, jigs, carriers, and floors. It can also replace heat-resistant steel trays and baskets. This document provides detailed information on the benefits of using CCM, delivery records, and actual usage examples. [Contents (excerpt)] ■ What is CCM? ■ What can CCM be used for? ■ Benefits of using CCM ■ Delivery records and applications ■ Usage examples, etc. *For more details, please refer to the PDF document or feel free to contact us.
