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想像してみてください。あなたは重要な機械の一部を丹念に組み立てています。すべての部品がシームレスに組み合わされ、エラーの許容範囲がゼロである必要があります。しかし、このレベルの精度を達成することは、特に溶接やろう付けのような伝統的な接合方法では、悪夢となりかねません。そこでAg18CuPパウダーが活躍します。

ティースプーン一杯のブラックホールに匹敵するほど高密度で、しかも砂のように細かい物質を想像してみてほしい。それこそが球状タングステン粉の魔法であり、航空宇宙から医療に至るまで、産業に革命をもたらしている驚異のエンジニアリングなのだ。しかし、この不思議な素材とはいったい何なのか？

Imagine you’re a manufacturer tasked with creating a super strong, heat-resistant component. You have a toolbox filled with various metal powders, but how do you seamlessly connect them? Enter BNi-2 powder, a superhero in the world of metal joining. Think of it as a superglue specifically designed for metals, and

Imagine building complex, high-strength components that are incredibly light. Imagine achieving this feat not through traditional manufacturing methods, but through a cutting-edge technology: 3D printing. This is the magic of AlSi7Mg powder, a metal powder alloy rapidly transforming the landscape of additive manufacturing. An Overview of AlSi7Mg Powder AlSi7Mg powder,

The year 2024 promises to be a pivotal year for powder metallurgy (PM), a manufacturing technique that utilizes metal powders to create complex, near-net-shape components. At the heart of this progress lies the power of the metal powders themselves. Just like the ingredients in a recipe, the specific type of

Additive manufacturing, also known as 3D printing, has revolutionized the way we design and produce complex parts. Selective laser melting (SLM) is a powerful 3D printing technique that uses a laser beam to selectively melt metal powder layer by layer, building a three-dimensional object from a digital blueprint. Choosing the