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Metal Joining Technology Product List and Ranking from 6 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 17, 2025~Jan 13, 2026
This ranking is based on the number of page views on our site.

Metal Joining Technology Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 17, 2025~Jan 13, 2026
This ranking is based on the number of page views on our site.

  1. null/null
  2. パンチ工業 Tokyo//Manufacturing and processing contract
  3. 大橋鉄工 Shiga//Manufacturing and processing contract
  4. 4 キャステム Toyama//Ferrous/Non-ferrous metals
  5. 4 チトセ工業 Osaka//Manufacturing and processing contract
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Metal Joining Technology Product ranking

Last Updated: Aggregation Period:Dec 17, 2025~Jan 13, 2026
This ranking is based on the number of page views on our site.

  1. Joining technology of plastic resin and metal
  2. Metal Joining Technology "P-Bas(R)" パンチ工業
  3. Friction Welding 大橋鉄工
  4. Laser-based dissimilar metal joining technology キャステム
  5. 4 Streamline quality, cost, and delivery with the metal joining technology "Brazing"! チトセ工業

Metal Joining Technology Product List

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Streamline quality, cost, and delivery with the metal joining technology "Brazing"!

Streamline quality, cost, and delivery with the metal joining technology "Brazing"!

Are you satisfied with your current welding? With our brazing, you can join materials cleanly and affordably.

Our company specializes in the joining of stainless steel and the joining of different metals. Chitose's "Smart Brazing Team," a group of experienced professionals in metal joining, will address your various concerns regarding metal joining. Our brazing is not done using hand brazing with torches or gas, but rather through "non-oxidizing furnace brazing," which uses a reducing gas as a protective atmosphere in a continuous furnace, heating and brazing in a controlled environment. 【Features of Non-Oxidizing Furnace Brazing】 ■ High strength ■ No discoloration or burning due to the absence of flux, resulting in a beautiful finish ■ Overall heating minimizes stress and distortion ■ No need for skilled craftsmen ■ Reduction in the number of processes *For more details, please refer to the PDF document or feel free to contact us.

  • Other processing machines
  • Processing Contract

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Metal Joining Technology "P-Bas(R)"

Metal Joining Technology "P-Bas(R)"

High joint strength! Providing mold components with a free shape inside and excellent cooling effect.

"P-Bas(R)" is a technology for joining materials without melting metal. It can join a wide variety of materials used in injection molds such as SKH51, SKD61, and SUS420J2, as well as die-casting molds. Impurities are less likely to accumulate, rust formation inside water pipes is less likely to occur, and coatings can also be applied inside the water pipes. 【Features】 ■ Integration without melting metal ■ The interface of the joint becomes invisible after processing ■ Anti-rust treatment can be applied to the water pipe before joining ■ The strength of the joint is over 90% of the base material's strength *For more details, please refer to the PDF document or feel free to contact us.

  • Other molds

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Tohoku University Technology: Technology for easy and strong resin/metal bonding: T19-064

Tohoku University Technology: Technology for easy and strong resin/metal bonding: T19-064

Dry process, low cost, quick& simple joining technology!

Conventional technologies for joining metal and resin include mechanical fastening with rivets, bolts, nuts, etc. and adhesive bonding, but the former has problems such as poor airtightness and increased number and weight of parts in the bonding area, while the latter has low adhesive strength due to the lack of adhesives for thermoplastic resins and low reliability in long-term use.  The present invention relates to a technology for joining resin and metal simply, firmly, quickly, and at low cost, which differs from the above methods in that it is a dry process, does not require expensive equipment, and is not a wet process, thus eliminating the need for waste liquid treatment.

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Friction Welding

Friction Welding

Balancing durability and cost! A dissimilar metal joining technology that meets the demands of new product development.

"Friction welding technology" is a technique that utilizes the thermal energy generated by friction and strong pressure, enabling the joining of dissimilar metals and non-ferrous metals that are very difficult to join using conventional welding techniques. While durable materials tend to be expensive, it is possible to use durable materials only where necessary and cheaper materials elsewhere, allowing for the provision of joining materials that balance durability and cost. Our company has a proven track record in applications such as electronic components like copy rollers and motor shafts, as well as mechanical parts. [Features] - Balancing durability and cost - Combination of different properties - Provision of "titanium-heat-resistant steel" joining materials that balance corrosion resistance and heat resistance - Proven applications in electronic components and mechanical parts *For more details, please refer to the PDF document or feel free to contact us.

  • Processing Contract

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Tohoku University Technology: Joining of Solid Metals: T24-079

Tohoku University Technology: Joining of Solid Metals: T24-079

It is possible to strongly bond phase-separated metals that could not be traditionally metallurgically joined while maintaining the shape of the components.

The technology for joining dissimilar metals is expected to contribute to weight reduction of vehicles such as automobiles, railways, and aircraft, improving safety and speed performance, as well as reducing CO2 emissions through lightweighting. However, depending on the types of metals, compatibility issues can arise, leading to phase separation and making joining difficult. The inventors developed a method for joining incompatible metals, such as Fe and Mg, using the de-alloying method as described in Patent No. 6710707. By pre-diffusion bonding an Fe-Ni intermediate layer to the tip of the Fe, and then heating the Fe-Ni intermediate layer in contact with Mg, de-alloying occurred. Only Ni was de-alloyed from the intermediate layer to the Mg side, and Mg filled the gaps in the porous structure of Fe, resulting in a composite structure where Fe and Mg were intertwined at the joint interface, achieving a strong Fe-Mg mechanical bond. Additionally, by utilizing the decrease in melting temperature associated with the Mg-Ni alloy reaction, the joint interface could be liquefied while maintaining the shape of the joined materials, thereby promoting de-alloying. At the same time, pressure was continuously applied to expel the alloy liquid, which becomes brittle upon solidification, to the outside.

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[Presentation of Materials] Layered Joining of Metals Using CAM Joining

[Presentation of Materials] Layered Joining of Metals Using CAM Joining

It is possible to achieve metal laminated bonding by bonding metals together and applying heat and pressure!

CAM bonding is a bonding technology that utilizes two bonding mechanisms, "Chemical & Melting," to join materials, resembling an adhesive but not being one. It can be applied to a wide range of materials, including metal-plastic and dissimilar metals in metal-metal bonding. CAM bonding is an environmentally friendly bonding technology that enables easy application and cost reduction, and it can be tailored with various functions depending on the bonding purpose. 【Features】 ■ Water-soluble and environmentally friendly ■ Low consumption for cost reduction ■ Usable after drying ■ Bonding through heated pressing ■ Functionalization is possible *For more details, please download the PDF document or contact us by mentioning "Ipros."

  • DC Motor

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Laser-based dissimilar metal joining technology

Laser-based dissimilar metal joining technology

Composite of high-performance materials 'Multi-Material' - Proposing fusion bonding technology between different metals.

Joining technologies that replace bolt, rivet, and clinch fastening Main benefits: ■ Weight reduction ■ Reduction in the number of parts ■ Reduction in manufacturing hours ■ Flexibility for new designs ■ Local reinforcement, non-magnetic, biocompatibility, corrosion resistance, hardening, etc. *For more details, please refer to the catalog or feel free to contact us.

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