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Alloy Powder Product List and Ranking from 6 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Alloy Powder Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. フジミインコーポレーテッド Gifu//Electronic Components and Semiconductors
  2. ヘガネスジャパン Tokyo//Ferrous/Non-ferrous metals
  3. 東洋アルミニウム Osaka//Ferrous/Non-ferrous metals
  4. エプソンアトミックス 北インター事業所 Aomori//Ferrous/Non-ferrous metals
  5. 5 マーケットリサーチセンター Tokyo//Service Industry

Alloy Powder Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. 【NEW】HRA92 equivalent high hardness cemented carbide powder for layered manufacturing. フジミインコーポレーテッド
  2. Introduction of carbide powder for 3D printers (additive manufacturing). フジミインコーポレーテッド
  3. Aluminum alloy powder for 3D printers - Spheralloy 東洋アルミニウム
  4. 4 Amorphous alloy powder エプソンアトミックス 北インター事業所
  5. 5 肉盛り溶接用 合金粉末『Rockit 606/706』 ヘガネスジャパン

Alloy Powder Product List

1~15 item / All 18 items

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Introduction of carbide powder for 3D printers (additive manufacturing).

We offer carbide powder suitable for 3D printing applications! The powder design tailored to the molding methods (such as PBF and DED) contributes to the densification and high hardness of the printed objects.

Cemented carbide is widely used for tools, cutting tools, molds, and jigs due to its excellent hardness and wear resistance. However, because of these characteristics, it is known as a difficult-to-machine material, and conventional processing methods have faced challenges in achieving complex shapes and longer delivery times. To address these issues, our company has developed cemented carbide powder suitable for 3D printing. It has the following features: 1) High-flow powder that contributes to high density 2) A lineup tailored to different manufacturing methods (PBF, DED, etc.) Expected applications: - High-precision press molds, special cutting tools - Repair of large structures and components, hard coatings Additionally, as a powder manufacturer, we support our customers' 3D printing with layered manufacturing by providing high-quality materials and developing and designing powders that consider different process parameters such as laser output, scanning speed, and layer thickness for each manufacturing method. If you have any inquiries or challenges regarding 3D printing with cemented carbide powder, please feel free to contact us.

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  • Press Dies

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【NEW】HRA92 equivalent high hardness cemented carbide powder for layered manufacturing.

Achieving high hardness equivalent to HRA92 with a 3D printer! Introducing a molded body made using newly developed WC-TiC-Co based powder for additive manufacturing.

Until now, our high-hardness powder for 3D printers has had a hardness limit of around 87HRA for the molded body, which posed challenges in applications for parts made from some ultra-hard alloys due to insufficient hardness. The newly developed hard powder has a main phase of WC-TiC-Co, and by achieving a fine microstructure, we have significantly improved the hardness of the molded body to 92HRA. This enables 3D printing of ultra-hard alloy powders that require high hardness, contributing to the resolution of conventional challenges. **Expected Applications** - High-precision press molds (extended lifespan and stabilized precision) - Special cutting tools (high wear resistance and high reliability) - Prototype manufacturing (shortened delivery times) Furthermore, since we possess metal 3D printer equipment, we can provide a comprehensive service that goes beyond mere powder sales, including ultra-hard molding tests, material property evaluations, and prototype support. For customers looking for "ultra-hard alloy 3D printing," "hard powder for metal 3D printers," or "ultra-hard powder materials," we offer a total solution that combines materials, molding, and evaluation. Please feel free to contact us for inquiries about the introduction of next-generation ultra-hard alloy 3D printing or prototype consultations.

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  • 3D Printer
  • Ceramics

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Titanium Aluminum Powder "TAS Series"

Affordable domestic products! They are used in industries such as aerospace, automotive, and thermal power generation.

The "TAS Series" is a powder of titanium aluminum intermetallic compound with a Ti-48Al-2Nb-2Cr (at%) ratio. By using a manufacturing method that does not rely on conventional gas atomization, it is possible to provide irregularly shaped powders suitable for powder metallurgy and spherical powders suitable for 3D printing and MIM at a high cost-performance ratio. There is a high demand for lightweight heat-resistant materials, and we are developing powders that eliminate the disadvantage of poor machinability. 【Features】 ■ Domestic product ■ Inexpensive ■ High cost-performance ratio ■ Ability to provide irregularly shaped powders suitable for powder metallurgy and spherical powders suitable for 3D printing and MIM ■ Development of powders that eliminate disadvantages *For more details, please refer to the PDF document or feel free to contact us.

  • Other metal materials

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肉盛り溶接用 合金粉末『Rockit 606/706』

衝撃摩耗、アブレシブ摩耗に強い!過酷な環境下で使用する装置・工具の寿命アップに貢献

『Rockit(ロッキット) 606/706』は、衝撃摩耗とアブレシブ摩耗に対する 耐久性を両立させた、肉盛り溶接用の合金粉末です。 石油・ガス掘削や鉱業・建設業の現場といった過酷な環境下で 使用する装置・工具などを衝撃・摩耗から保護し、寿命アップに貢献。 『Rockit 606』はレーザークラッディング用、 『Rockit 706』はプラズマアーク溶接用(PTA)に好適化しています。 【特長】 ■きれいで滑らかな溶着部 ■溶着層内の硬さが均一 ■衝撃に弱い基材の強度をアップ ■ベース金属が鉄のため、地金価格の変動の影響も抑制可能 ※製品カタログ(英語版)や、“溶射用・盛金用合金粉末選定ガイド”のほか、  誌面を一新した「レーザー、PTA用盛金用合金粉末カタログ(近日、日本語版を  作成予定)」を進呈中。PDFダウンロードよりご覧いただけます。

  • others

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forAM Al-HS1 & HS2 20-63 GA

Two types of aluminum alloy powders developed with a focus on low cost and high strength, accompanied by a material property comparison chart.

We offer a wide range of metal powder materials for metal 3D printers. On this page, we introduce two new products. ◎ 'Al-HS1 GA, Al-HS2 GA' These are aluminum alloy powders uniquely developed for the LPBF process. They achieve high strength through direct aging treatment after printing, without using expensive materials. 【Features】 ■ High cost performance ■ Good flowability and spreadability ■ Suitable for use in high-temperature environments *For more details, please refer to the materials. Feel free to contact us with any inquiries.

  • aluminum

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High-strength aluminum alloy powder 'forAM Al-HS1/HS2'

A new product specialized for additive manufacturing. Achieves medium to high strength and high hardness through direct aging treatment. [Free distribution of a list of metal powders for 3D printers is currently available.]

The "forAM Al-HS1/HS2" is a newly developed, uniquely composed, precipitation-hardened aluminum alloy powder for the LPBF process. Through direct aging treatment after shaping, "HS2" shows a strength of over 400 MPa at room temperature, while "HS1" demonstrates approximately 200 MPa strength even in high-temperature environments of 250°C, achieving high hardness as well. The powder has excellent flowability and spreadability, enabling high-precision shaping. 【Features】 ■ Specifically developed for the LPBF process ■ Achieves medium to high strength and high hardness through direct aging treatment after shaping ■ Excellent dimensional stability and suitable for high-temperature environments ■ Achieves high cost performance without using expensive materials ★ You can view our "Metal Powder List for 3D Printers" along with a material property comparison chart by clicking the download button below.

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  • aluminum

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Amorphous alloy powder

Adopted as 3D printer materials and metal injection molding materials! Spherical amorphous alloy powder.

Amorphous alloy powder is an excellent metal material with outstanding wear resistance, corrosion resistance, and soft magnetic properties. It can be used not only in components that go into circuit boards for smartphones, PCs, tablets, and automotive ECUs, but also as materials for 3D printers and metal injection molding. Typically, amorphous alloys are available in thin strips, but by powdering them into spherical shapes, they can accommodate complex molding as well. 【Features of Amorphous Alloy Powder】 - Wide range of alloy design possibilities - Production of finer metal powders - Broadly responsive to customer needs For more details, please download the PDF document, and feel free to contact us for inquiries about applications.

  • alloy

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Aluminum alloy powder for 3D printers - Spheralloy

[Form Next Exhibition] True spherical, high fluidity, high density, high temperature high strength, high fatigue strength, high rigidity, aluminum alloy for 3D printers!

We have prepared aluminum alloy powder that is optimal for 3D additive manufacturing. Based on aluminum, it is possible to blend various metals such as scandium, zirconium, titanium, silicon, nickel, copper, iron, and zinc. Additionally, we can also discuss blends with non-metal compositions such as ceramics. We will propose specifications for particle size according to the equipment you are using. For any inquiries regarding aluminum alloy powder, please consult us. We are also working on the recycling of used powder. 【Search Keywords】 #Spheralloy #SPHERALLOY #3DAdditiveManufacturing #3DPrinter #3DPrint #Metal3DPrinter #Microstructure3DPrinter

  • ラティス.jpg
  • Other machine elements

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Introduction of research project results on ultra-hard alloy powder for 3D additive manufacturing.

[Case Study of 3D Printer Development Initiatives] Introducing the achievement of producing ultra-hard punches with internal piping, with over 100,000 shots in actual use.

In the "Knowledge Base Aichi Key Research Project" implemented by Aichi Prefecture and the Public Interest Incorporated Foundation Science and Technology Exchange Foundation, a research group consisting of Professor Makoto Kobashi from Nagoya University, Asahi Seiki Kogyo Co., Ltd., Aichi Industrial Science and Technology Comprehensive Center, and our company has successfully developed a mold for cemented carbide with internal structures using a 3D printer. We are currently fabricating cemented carbide punches with internal piping using a 3D printer, and for verification, we are using the actual fabricated cemented carbide punches in deep drawing processing. We have confirmed that there are no abnormalities in both the workpiece and the punch even after 100,000 shots, and further verification with an increased number of shots is planned for the future. Our company has developed powders with properties suitable for metal 3D printers (Powder Bed Fusion: PBF) necessary for fabricating using cemented carbide powders. The manufacturing and sales of these 3D printer-compatible cemented carbide powders have already begun. The cemented carbide punch shown in the image was fabricated by Japan Layered Manufacturing Co., Ltd.

  • Press Dies
  • End Mills
  • Processing Jig

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[Technical Data] Case Study on Carbide × 3D Printer (LPBF Method)

This is a technical document summarizing the characteristics of cemented carbide understood from the basics, general powder metallurgy methods, challenges and causes of layered manufacturing of cemented carbide, as well as countermeasures and case studies!

Opening up new possibilities with carbide × LPBF! Our company has evolved the 3D printing technology for carbide powder, enabling high-precision and high-strength fabrication that was previously difficult. In this series (a total of 5 sessions), we will systematically explain the characteristics of carbide, fabrication technology, and approaches to solving challenges. If you are interested in more innovative material solutions, please take a look. Session 1: An introduction to the characteristics of carbide and the manufacturing process using conventional powder metallurgy methods, as well as 3D printers (LPBF method) for beginners. Session 2: In the LPBF method using carbide, the formability is poor, and pores and cracks have been observed in the fabricated objects; we will delve into these challenges and their causes. Session 3: We will consider how the heat treatment conditions after fabrication affect the fabricated products. Session 4: As a confirmation of the effect of carbon content on reducing brittle phases in layered fabrication (LPBF method) of carbide, we will examine the impact of adding graphite particles to carbide powder. Session 5: We will introduce case studies of 3D carbide fabricated products applied to deep-drawing press molds used in automotive parts manufacturing.

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  • Composite Materials

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[Research Material] Global Market for AgPd Alloy Powder

World Market for AgPd Alloy Powder: Nanoscale, Industrial, Batteries, Catalysts, Electronics, Others

This research report (Global AgPd Alloy Powder Market) investigates and analyzes the current status and outlook for the global AgPd alloy powder market over the next five years. It includes information on the overview of the global AgPd alloy powder market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The market segments by type for AgPd alloy powder focus on nanoscale and industrial applications, while the segments by application cover batteries, catalysts, electronics, and others. The regional segments calculate the market size of AgPd alloy powder by dividing it into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa. It also includes the market share of major companies in the AgPd alloy powder sector, product and business overviews, and sales performance.

  • Other services

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[Research Material] Global Market for Aluminum Alloy Powder

World Market for Aluminum Alloy Powders: Fine Aluminum Alloy Powders, Medium Aluminum Alloy Powders, Coarse Aluminum Alloy Powders, Automotive Parts, etc.

This research report (Global Aluminium Alloy Powders Market) investigates and analyzes the current status and outlook for the global market of aluminum alloy powders over the next five years. It includes information on the overview of the global aluminum alloy powders market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the aluminum alloy powders market focus on fine aluminum alloy powders, medium aluminum alloy powders, and coarse aluminum alloy powders, while the segments by application target automotive parts, compressor parts, and others. The regional segments are classified into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa to calculate the market size of aluminum alloy powders. It also includes the market share of major companies in aluminum alloy powders, product and business overviews, and sales performance.

  • Other services

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