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Powder metallurgy (PM) is a manufacturing technique that utilizes metal powders to create complex and near-net-shape components. It offers several advantages over traditional casting and machining, including design flexibility, material efficiency, and the ability to produce parts with unique properties. But the magic of PM lies in the metal powders

The world of manufacturing is undergoing a revolution, with additive manufacturing (AM), also known as 3D printing, taking center stage. This transformative technology allows for the creation of complex, three-dimensional objects directly from digital models. But what fuels this revolution? Enter the unsung heroes: metal powders. Specifically, 1080 grade metal

In the ever-evolving world of network systems, ensuring reliable power delivery is paramount. Data centers, communication hubs, and critical infrastructure all rely on uninterrupted electricity flow to function. This is where FeSiCr, a powerful alloy composed of iron (Fe), silicon (Si), and chromium (Cr), steps onto the scene. But what

金属射出成形（MIM）は製造業に革命をもたらし、複雑でニアネットシェイプの金属部品を、卓越した精度と細部まで作り上げることを可能にしました。しかし、この革新的な技術は、金属粉末という極めて重要な成分に大きく依存している。MIMに関して言えば、MS1(1.2709)金属粉末はチャンピオンとして際立っています。

Additive manufacturing (AM), also known as 3D printing, has revolutionized the way we design and produce parts. This technology allows for the creation of complex geometries with incredible precision, opening doors for innovation across various industries. But what fuels this revolution? Enter metal powders – the building blocks of AM

Imagine building a component that needs to be incredibly strong, resistant to corrosion, and lightweight all at the same time. Sounds like a tall order, right? Well, for those in the additive manufacturing (AM) world, this dream becomes a reality with the introduction of 17-4PH stainless steel powder specifically designed

Metal Injection Molding (MIM) has revolutionized the manufacturing landscape for complex, near-net-shape components. Imagine this: intricate parts with exceptional strength, corrosion resistance, and intricate details – all produced in high volumes and at a competitive cost. That’s the magic of MIM. But at the heart of this process lies a

Have you ever dreamt of building complex metal objects layer by layer, with nothing but a laser and some metal powder? Well, that’s the magic of LPBF process, a revolutionary 3D printing technology that’s transforming the manufacturing landscape. Imagine the possibilities: crafting intricate medical implants, designing lightweight aerospace components, or

複雑な金属オブジェクトを、比類のない設計の自由度と最小限の無駄で、一層一層作り上げることを想像してみてください。これが、レーザービーム粉末床融合法（PBF-LB）の魔法です。PBF-LBは革新的な3Dプリンティング技術であり、製造現場の状況を急速に変えています。PBF-LBは、高出力のレーザービームを利用して金属粉末を選択的に溶融・融合させることで、3Dプリンターの製造現場を急速に変革しています。

金属粉のプールから、比類のない精度で複雑な金属物体を1層ずつ造形することを想像してみてください。これはSFではなく、レーザー粉末床融合法（LPBF）の現実であり、製造業を一変させる革命的な3Dプリンティング技術である。LPBFは、選択的レーザー溶融（SLM）またはダイレクト3Dプリンティングとしても知られている。