Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
256~270 item / All 546 items
Eco wire extrusion crosshead for non-halogen, flame-retardant material that is difficult to extrude.
This is a non-adjustable crosshead developed for extruding non-halogen and flame-retardant additive materials that are difficult to extrude. It is ideal for eco-friendly wire extrusion.
It has a high density and high elastic modulus, and its machinability is also optimized.
Plansee's tungsten heavy metal alloys DENSIMET® and INERMET® provide the greatest advantage in designs that require significant weight in small spaces, thanks to their high density of up to 18.89 g/cm³. They are used as balance weights for crankshafts and balance shafts in F1 cars and large diesel engines, and due to their high density, high elastic modulus, and optimized machinability, they are also ideal for use as dampers and absorbers in drive trains. 【Features】 - High elasticity and excellent machinability - Nickel-iron phase firmly bonds tungsten particles - Highly ductile composite metal - Excellent machinability - Composite materials that can withstand high loads For more details, please contact us or download the catalog.
A damping alloy that absorbs all vibrations and has excellent workability. It is a groundbreaking metal that boasts several times the damping rate of cast materials. The new product "WAVLES 2" has been launched.
The damping alloy WAVLES is a groundbreaking metal that boasts a damping rate several times that of cast materials. It possesses a level of vibration damping and moldability that is on a different dimension from conventional damping alloys. Furthermore, we have launched a new product, 'WAVLES 2', which is effective against micro-vibrations!
A completely new vacuum structural material that suppresses outgassing, creating ultra-clean with 0.2% BeCu (0.2% beryllium copper alloy)!
A completely new vacuum structural material, 0.2% BeCu! Traditionally, stainless steel (SUS) has been the standard material for vacuum structures. However, SUS has poor thermal properties and tends to heat up, resulting in significant gas release. In contrast, the 0.2% beryllium copper alloy (BeCu) has excellent thermal properties and, with its special surface treatment, minimizes outgassing to an extreme level, creating an ultra-clean environment! It excels in advanced semiconductor manufacturing and high-precision analysis! If you are struggling with gas release in a vacuum, please try Tokyo Electron's 0.2% BeCu!
A consistent production system from the preparation of raw powder to the final processing of mold tools! We offer a rich lineup.
"Super hard alloy" refers to a hard alloy made by sintering tungsten carbide (WC) with cobalt (Co) or nickel (Ni) as a binder. By adjusting the WC particle size and the amount of binder, it is possible to create various super hard alloys with different hardness and toughness. Fuji Dice has a consistent production system from the preparation of raw powder to the final processing of mold tools, ensuring quality assurance and allowing for reliable adoption. Please feel free to contact us when you need assistance. 【Super hard alloy material lineup (partial)】 ■J: Suitable for mirror finish without binder ■F: Ultra-fine particles with high strength ■N: Fine particles with strength second to F ■D: Versatile balanced type ■V: Prevents the occurrence of discharge cracks *For more details, please contact us.
Achieve increased speed and reduced consumption rate! We have approximately 50 types of round bars and square plates available as standard stock. Custom-made production is also possible from just one piece.
"CE08" is a copper-tungsten alloy (Cu-W) for electrical discharge machining. Our unique manufacturing method, which adds barium tungstate, achieves increased speed and reduced wear rate. We offer approximately 50 types of round bars and square plates as standard stock. Additionally, if you provide us with the required size, we can also manufacture custom orders starting from one piece. Please feel free to contact us when you need assistance. [Examples of Final Products] ■ Various molds For more details, please download the PDF or contact us!
Lighter than super hard materials, while maintaining wear resistance and reducing the load on equipment! An original alloy made using powder metallurgy.
"KF2 Alloy" is an original alloy made using powder metallurgy, possessing a hardness close to that of cemented carbide. It is lighter than cemented carbide and is valued for its ability to reduce the load on equipment while maintaining wear resistance. Examples of final products include semiconductor components and special wire materials. Please feel free to contact us when you need assistance. 【Examples of Final Products】 ■ Semiconductor Components ■ Special Wire Materials ■ Industrial Precious Metal Products *For more details, please contact us.
To solve issues such as mold wear, chipping, and adhesion, we respond with carbide materials and precision processing technology.
The drive motor, which is essential for EV power, has a motor core made by laminating electrical steel sheets. Since electrical steel sheets are formed through precise high-speed stamping, the following three characteristics are required for the mold material: ◆ High wear resistance ◆ High chipping resistance ◆ High adhesion resistance Additionally, for the electrical discharge machining performed when processing the mold, the following characteristic is required: ◆ High corrosion resistance Our company responds to your concerns with a "rich lineup of mold materials" and "precision processing technology." The maximum size of cemented carbide that can be manufactured is φ520×φ480×50L. We can accommodate very large products as cemented carbide molds. For more details, please download the PDF or contact us!
Bending strength × Edge retention × Wear resistance
\ Features of FS06 / ◆ Excellent Wear Resistance With a hardness of 95.0HRA, the wear at the cutting edge is suppressed compared to conventional ultra-fine carbide, leading to an expected longer lifespan. ◆ Reduced Burrs and Edge Chipping Due to its excellent wear resistance even after prolonged use, the tool shape is maintained for a long time, allowing for a reduction in burrs and edge chipping, making it suitable for precision molding tools. ◆ High Strength As the bonding phase is reduced to increase hardness in carbide, the fracture resistance typically decreases. However, FS06 maintains a fracture resistance of 4000MPa, covering strength levels comparable to conventional ultra-fine carbide despite its very high hardness. ◆ Excellent Edge Sharpness Due to the nano-sized WC alloy, a superior sharp edge can be achieved on the tool cutting edge through grinding and finishing processes of #1000 or higher. For more details, please download the PDF or contact us!
From HRC40 for high cycle molding materials to the new material Mold Max-V.
From HRC40 for high cycle molding materials to the new material Mold Max-V.
Mold Max XL
A unique spinodal hardening (precipitation hardening) type of copper-nickel-tin alloy with high strength and high thermal conductivity. 【Features】 ○ Available in thick plates up to 17 inches (432mm) thick and round bars up to 23 inches (584mm) in diameter, making it suitable for direct replacement of tool steel P-20. ○ Heat-treated and ready for immediate machining. ○ Excellent corrosion resistance. ○ Good machinability. ○ Good mirror polishing properties. ○ Weldable to copper and other alloys. ○ Usable in large blocks. ○ High levels of strength and thermal conductivity. ○ Reduced cycle time and increased profits. ● For other functions and details, please request materials or download the catalog.
Alloy 174
A material that bridges the performance gap between low-performance copper alloys such as bronze and high-performance beryllium copper alloys. 【Features】 ○ Technically designed to carry high currents with minimal temperature rise under normal load conditions, offering a better formability/strength ratio. ○ Exceptional stress relaxation resistance at high temperatures, four times the conductivity of bronze, and excellent formability at any strength. ○ Provided in the state of mill-hardened (age-hardened) coils. ○ Excellent fatigue strength, making it an ideal material for switches and relays. ○ Capable of composite treatments such as tin plating, soldering, and precious metal inlays. ● For other functions and details, please request materials or download the catalog.
Brush Form 290
A specially modified alloy (BF290) of the current mill-hardened beryllium copper, designed to provide superior bendability while maintaining its strength. **Features** - Ability to form tighter R bends - Higher resistance to stress relaxation compared to standard mill-hardened materials - Using BF290 for component manufacturing can save costs associated with aging hardening and cleaning processes (no concerns about metal shrinkage or deformation during aging hardening) - Allows for elastic design - Can be formed using existing tools - Usable for various applications that were previously limited to aging-hardened beryllium copper only ● For more functions and details, please request materials or download the catalog.
It combines strength and conductivity in a harmonious form.
Not only does it possess high electrical conductivity, high thermal conductivity, high strength, and high hardness, but it also demonstrates excellent resistance to bending, corrosion, wear, and fatigue. Beryllium copper and various high-performance copper alloys can be viewed by downloading the catalog.
High conductivity! High thermal conductivity! High strength! High hardness!
"Beryllium copper" is a copper-based alloy that possesses high electrical conductivity, high thermal conductivity, high strength, and high hardness. By combining lightweight and unique properties of beryllium, it not only has high electrical conductivity, high thermal conductivity, high strength, and high hardness, but also demonstrates good bendability and excellent resistance to corrosion, wear, and fatigue. There are various alloys of beryllium copper depending on the chemical composition and manufacturing methods, allowing you to select the appropriate alloy and quality for your application. 【Features】 ■ High electrical conductivity ■ High thermal conductivity ■ High strength and high hardness ■ Good bendability ■ Excellent resistance to corrosion, wear, and fatigue *For more details, please refer to the catalog or feel free to contact us.
