Alloy Product List and Ranking from 30 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

Alloy Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. 開明伸銅 本社  Kyoto//Building materials, supplies and fixtures manufacturers
  2. 大紀アルミニウム工業所 東京支店 Tokyo//others
  3. null/null
  4. 4 大和合金 三芳工場 Saitama//others
  5. 5 光アルファクス Osaka//Trading company/Wholesale
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Alloy Product ranking

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. A3003 Aluminum Extruded Alloy 開明伸銅 本社 
  2. A6005C aluminum extruded alloy 開明伸銅 本社 
  3. High thermal conductivity alloy for die casting "HT-1" 大紀アルミニウム工業所 東京支店
  4. 4 Yamato Alloy NC25・50 Alloy 大和合金 三芳工場
  5. 4 【High rigidity & high thermal conductivity!】Heat-resistant tungsten alloy Ambiloy ニデックマテリアル

Alloy Product List

46~60 item / All 75 items

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A6005C aluminum extruded alloy

A6005C aluminum extruded alloy

Although it has slightly lower strength than A6061, it allows for thin-walled hollow profiles with complex cross-sectional shapes.

A6005C is an alloy developed in Japan, positioned between A6063 and A6061 in terms of strength. Its former name was 6N01, and it is characterized by high corrosion resistance, excellent extrudability, and superior weldability. Due to its ability to produce thin-walled and complex cross-sectional shapes, it is widely used in railway vehicles such as Shinkansen and subways. Its high extrudability allows for easy extrusion of large profiles, making it possible to reduce the number of weld joints.

  • Others/Roofing materials (shingles, cement, steel sheets, aluminum)

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Fiber-reinforced heat-resistant and wear-resistant alloy "FREA-METAL"

Fiber-reinforced heat-resistant and wear-resistant alloy "FREA-METAL"

Measures against wear in high-temperature environments exceeding 1000℃ and equipment with corrosive atmospheres! Widely used in thermocouple protection tubes, incinerators, boilers, blowers, and more.

The fiber-reinforced heat-resistant, corrosion-resistant, and wear-resistant alloy "FREAMETAL" is an alloy that possesses high-temperature oxidation resistance and excellent wear resistance, contributing to the reduction of running costs for production equipment by extending the lifespan of various equipment parts. We also accept production after receiving drawings, so please feel free to contact us. 【Features】 ■ High-temperature oxidation resistance comparable to SUS310S ■ Achieves high-temperature hardness of approximately Hv550 at 800°C and approximately Hv450 at 900°C ■ Resistant to high-temperature chlorine gas corrosion at around 1000°C ■ Significantly reduces adhesion of molten slag and molten metal *For more details, please refer to the materials. Feel free to contact us as well.

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Tohoku University Technology: Mo-Si-B-Ti-C alloy: T12-109 T16-055 T17-137

Tohoku University Technology: Mo-Si-B-Ti-C alloy: T12-109 T16-055 T17-137

Formation of high-strength / high-rigidity / high heat-resistant Mo alloy that can be cast (able to melt under 2000℃)! Equivalent to Ni-based alloy!

Currently, molybdenum alloys are formed by extrusion of powder sintered bodies due to their high melting point. Therefore, cutting is required in order to form complex shapes, which increases the manufacturing cost. In addition, if a body is formed by the powder sintering, the strength is decreased.   In this invention, light / high strength / high heat resistance molybdenum alloys can be easily fabricated by the melting and casting method, which can be applied for complex shapes. New molybdenum alloys with melting point below 2000℃.

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Tohoku University Technology: Iron alloy that is lighter and stronger than stainless steel: T05-117

Tohoku University Technology: Iron alloy that is lighter and stronger than stainless steel: T05-117

Iron alloy with specific gravity less than 7, 0.2% proof stress more than 1000 MPa, and tensile stress more than 1000 MPa

Although stainless steel is an industrially important iron alloy, its specific strength is inferior to that of other metals because of its large specific gravity. An iron alloy having low specific gravity and high strength is required for the transport equipment.   The present invention provides high strength iron alloy having the maximum 0.2% proof stress and the tensile stress more than 1000 MPa while having the specific gravity less than 7.

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Tohoku University Technology: Co-based magnetic alloy for high TMR element: T19-018

Tohoku University Technology: Co-based magnetic alloy for high TMR element: T19-018

TMR ratio over 200% with no B addition, low temperature heat treatment and sputtered film formation

TMR element showing the tunnel magnetoresistance (TMR) effect, has been applied to products such as magnetic sensor, non-volatile memory, etc. The TMR ratio, which represents the variation ratio of element resistance, is one of the element performance indicator and it is an important characteristic that influences the specification of the applied product. TMR element using amorphous FeCoB magnetic alloy and MgO tunnel barrier is currently the main material and can be fabricated by sputtering method which is suitable for mass production. This is an excellent material which becomes FeCo/MgO crystal when B is diffused by heat-treating the element and shows 200-600% TMR ratio. However, heat treatment with B diffusion could be a factor in reducing the functionality of other layers adjacent to FeCo. This invention provides a technology for Co-based magnetic irregular alloy showing TMR ratio comparable to FeCoB by low temperature heat treatment, even without the addition of B.

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Tohoku University Technology: Fe-based Alloy: T18-074

Tohoku University Technology: Fe-based Alloy: T18-074

High wear and corrosion resistance for molding super engineering plastics! Low cost mass production deployment is possible since powder metallurgy technology is not used

This invention overcomes the corrosion resistance decrease with a unique alloy design, which has been an issue for high-hardness alloys with dispersed carbides, and provides an Fe-based alloy with an excellent balance between hardness and corrosion resistance. The alloy of this invention can be manufactured using ordinary melting and processing equipment, and can reduce material cost by replacing existing powdered metallurgy materials. It is expected to have a wide range of applications such as a component of a screw, etc. used in the molding of super engineering plastics like a PPS resin or such as a mold material used in corrosive environments.

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Tohoku University Technology: Oxide dispersion strengthened alloys: T17-105

Tohoku University Technology: Oxide dispersion strengthened alloys: T17-105

Oxide dispersion strengthened alloys with uniform dispersion of fine oxide particles can be fabricated by the additive manufacturing method!

Oxide dispersion strengthened alloy is an alloy where the hard oxide particles are dispersed inside the crystal grains of the metal matrix. By having more oxide particles inside the crystal grains of the matrix phase with uniform dispersion, it is difficult for the oxide particles to agglomerate or coarse even when exposed to a high-temperature environment for a long period of time, which makes difficult for the material to deteriorate its strength property.  In the casting method, metallic liquid and oxide solids having different density are difficult to mix homogeneously, and oxide particles are pushed by the solid-liquid interface of solidification and agglomerate in the final solidified part, which prevents them from being uniformly dispersed in the matrix. In addition, the laser and electron beam additive manufacturing methods involve the powder particles melting process which causes the agglomeration of fine oxide particles and makes it difficult to disperse them uniformly inside the matrix.  This invention solves the above problem and provides a technology that can fabricate oxide dispersion strengthened alloys with fine oxide particles uniformly dispersed inside the crystal grains of the matrix phase when using the additive manufacturing method.

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Tohoku University Technology: New CoCr alloys with low Young's modulus, high wear and corrosion resistance, and superelasticity : T20-542

Tohoku University Technology: New CoCr alloys with low Young's modulus, high wear and corrosion resistance, and superelasticity : T20-542

Alloys with high fatigue life and free of nickel element

β-Ti and conventional CoCr alloys are widely used for artificial joints because of their superior mechanical properties. Some β-Ti alloys show superelasticity and low Young's modulus; however, they have low wear resistance. Conventional CoCr alloys show excellent wear resistance, but they have very high Young's modulus, which is about 10 times that of human bones. Since low Young's modulus and wear resistance are properties with a trade-off relation, there has not been a biomaterial that realizes both.  This invention is about new CoCr alloys that have an even lower Young's modulus than β-Ti alloys, which also boast high wear and corrosion resistance, and superelasticity. This invention shows a fatigue life of more than 10 million cycles up to a strain of 1.65% and it is expected to be the next-generation biological material.  These alloys are characterized by a large elastic anisotropy. In the <100> direction, they show a Young's modulus of 30 GPa, comparable to human bones, making it suitable to use for artificial joints and bone plates. In the <111> direction, they have extremely high Young's modulus of 300 GPa, making it suitable to use for stents.

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Tohoku University Technology: Alloy Showing Large Elastic Strain: T19-355

Tohoku University Technology: Alloy Showing Large Elastic Strain: T19-355

Elastic alloy with Young's modulus less than 25 GPa which remains in the elastic range even when 600 Mpa stress is applied

Superelastic alloy can instantly return to its original state after plastic deformation when the force is removed. However, a repeated plastic deformation leaves a residual strain that cannot be ignored. This invention is about an elastic alloy having a large elastic strain over 4% and Young's modulus less than 25 Gpa, which remains in the elastic range even a stress up to 600 Mpa is applied.

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Tohoku University Technology: Magnesium alloy exhibits superelastic effect: T15-071

Tohoku University Technology: Magnesium alloy exhibits superelastic effect: T15-071

Specific gravity is less than one third of Nitinol! The lightest superelastic alloy worldwide without allergic elements

Conventional superelastic and shape-memory alloys are generally composed of elements having high specific gravity, and the ones composed of lightweight elements have not been reported yet. Although superelastic and shape-memory alloys for medical applications are being intensely investigated, a typical TiNi alloy (Nitinol) is still difficult to apply to patients owing to allergic effect caused by nickel.  The present invention provides superelastic and shape-memory alloy having the specific gravity less than one third of Nitinol by using magnesium. As well known as the good biocompatibility of magnesium, the alloy is expected to be applied to medical field.

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High thermal conductivity aluminum alloy

High thermal conductivity aluminum alloy

Not only in conventional casting but also in semi-solid casting, it demonstrates high performance!

The "high thermal conductivity aluminum alloy" is a product developed for use in communication equipment, electronic components, solar inverters, and the LED field. It has excellent thermal conductivity that is more than 1.5 times that of ADC12, while also maintaining high strength and excellent corrosion resistance. It demonstrates high performance not only in conventional casting but also in semi-solid casting. Please feel free to contact us when you need assistance. 【Product Lineup】 ■RGA3 ■RGA3-1 ■RGA3-2 ■ADC12 *For more details, please refer to the PDF document or feel free to contact us.

  • Parts and Materials

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Nickel-based alloy

Nickel-based alloy

Suitable for a wide range of fields such as automobiles, aircraft, and electronic devices.

As a specialized trading company for metal materials, we primarily handle nickel (Ni) based non-ferrous metal materials. Nickel (Ni) is used in various fields such as automobiles, aircraft, and electronic devices, supporting technological innovation in the industry. <Ni-based alloys: pure nickel (Ni), Kovar (KOV), bimetal> ■ Function: heat dissipation, sealing ■ Examples of applications: electronic tubes, automotive instruments <Heat-resistant and corrosion-resistant materials (Inconel, etc.)> ■ Function: heat resistance, corrosion resistance ■ Examples of applications: automotive parts, aircraft parts *Please feel free to contact us.

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Relief arch made of steel + aluminum alloy

Relief arch made of steel + aluminum alloy

Renewed with laser processing specifications! We have implemented a design review to enhance added value.

The "Relief Arch - Steel + Aluminum Alloy" is an item that easily creates an atmosphere of charm and tranquility, often used in environments with many children, such as parks, green spaces, and educational facilities (nurseries and kindergartens). The lower edge position of the relief panel has been adjusted to ensure that standard-sized colored balls (φ70mm), commonly used for play, cannot pass through, thanks to a clearance design. Custom lattice reliefs with sign panels can be produced to meet needs such as including cautionary messages at park entrances. 【Features】 ■ A lineup designed to prevent accidents caused by balls rolling into the road. ■ Design of the ball guard. ■ Specification with sign panels. ■ Double-sided sign panel specifications are also available. *For more details, please refer to the PDF materials or feel free to contact us.

  • Car and bicycle parking facilities
  • Gates, walls and fences
  • Safety and consumables

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Environmentally friendly bronze alloy "Rose Bronze"

Environmentally friendly bronze alloy "Rose Bronze"

RoHS directive regulated value guaranteed products! Introducing cadmium-free low-lead bronze with an immediate delivery system.

"Rose Bronze" is a copper alloy for mechanical components that serves as a replacement for the six types of bronze that have been commonly used until now. It possesses cutting performance, mechanical strength, sliding performance, wear resistance, corrosion resistance, and pressure resistance equivalent to CAC406, is excellent in castability, has no dezincification corrosion, and is priced almost the same. It can be used without issues in bearings, sliding materials, and transmission parts related to electrical and electronic equipment, transmission machinery, and machine tools exported to the EU. 【Features】 ■ Fully compliant with the EU RoHS directive ■ Established a system for immediate delivery of both continuous cast products and raw materials ■ An analysis sheet detailing the presence of lead and cadmium is attached to all deliveries *For more details, please refer to the PDF document or feel free to contact us.

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Super hard alloy "Hardloy"

Super hard alloy "Hardloy"

Continuing to advance with ultra-hard alloys, a standard product of domestically produced alloys.

Our company handles ultra-hard alloys "Hardloy" that possess excellent wear resistance, corrosion resistance, and acid resistance. With a consistent production system from raw material formulation to processing and inspection, we accommodate order production tailored to specific applications. We offer short delivery times and small lot sizes. 【Main Applications】 ■ Molds for powder metallurgy ■ Molds for pressing ■ Molds for forging ■ Molds, tools, and component parts for electronic parts ■ Chips and nozzles for mining and civil engineering ■ Cutters and punches for flexible packaging materials *For more details, please download the PDF or feel free to contact us.

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