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Phosphating Process on the Properties of FeSiAl Soft Magnetic Powder

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Phosphating Process on the Properties of FeSiAl Soft Magnetic Powder FeSiAl soft magnetic alloy powder is widely used in high-frequency electronics, motor fields, electromagnetic shielding, green energy, etc. Introduction Soft magnetic materials are a crucial component in the modern power electronics industry, playing roles in energy conversion, signal transformation, and transmission. Metal soft magnetic materials […]

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Hastelloy B Alloy Powder and Its Additive Manufacturing Application

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Hastelloy B Alloy Powder and Its Additive Manufacturing Application Introduction Hastelloy B is a typical Ni–Mo type solid solution strengthening nickel-based corrosion-resistant alloy, renowned for its outstanding stability in highly reducing corrosive environments. This alloy is designed with a high molybdenum content and demonstrates extremely strong corrosion resistance in hydrochloric acid, hydrofluoric acid, and chloride

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The influence of powder morphology on the magnetic properties of FeNi50 magnetic powder cores

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The influence of powder morphology on the magnetic properties of FeNi50 magnetic powder cores Introduction The FeNi50 magnetic powder core is a new generation of soft magnetic material formed by pressing alloy powder after insulation coating. Compared with other soft magnetic materials, it has high magnetic permeability, low power loss and excellent DC superposition performance.

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Invar 36 Pulver

Additive Manufacturing with Invar 36 Alloy

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Additive Manufacturing with Invar 36 Alloy Introduction Invar 36 (4J36)(FeNi36) alloy is classified as a low expansion alloy and a precision alloy. Due to its extremely low coefficient of thermal expansion (CET) under conditions of temperature change, this type of alloy is an indispensable material in precision equipment. Comparison of the thermal expansion coefficients of

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Comparison of Transfer Arc and Non-transfer Arc PREP Equipment

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Comparison of Transfer Arc and Non-transfer Arc PREP Equipment Introduction The plasma rotating electrode process (PREP) is one of the important technologies for producing high-quality spherical metallic powders at present. It has unparalleled advantages over other powder production techniques in the preparation of spherical metallic powders with ultra-low oxygen content. The metallic powders produced by

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CuCrZr CuAlCrFeNi2.5

Research on the Properties of CuCrZr/CuAlCrFeNi2.5 Composite

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Research on the Properties of CuCrZr/CuAlCrFeNi2.5 Composite Background Copper (Cu)-based materials are widely used in the fields of power, transportation and new energy due to their excellent electrical conductivity. However, pure copper has a relatively low strength (less than 100 MPa), and traditional strengthening methods (such as solid solution strengthening) often cause severe lattice distortion,

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New type of copper-nickel alloy powder

New type of copper-nickel alloy powder

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New type of copper-nickel alloy powder Our CuNi10 or CuNi30 powders produced by PREP, are developed with sustainable high-performance aiming to meet the growing demand for corrosion-resistant and highly conductive materials in demanding applications such as marine, energy, and industrial sectors.  CuNi10 powders or CuNi30 is renowned for its outstanding corrosion resistance, excellent thermal and

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Oxygen free Pure Copper

Breakthrough of High Thermal Conductivity of Oxygen-free Pure Copper

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Breakthrough of High Thermal Conductivity of Oxygen-free Pure Copper In the field of thermal management, pure copper has always been regarded as the standard material for thermal conductivity. The theoretical thermal conductivity value of oxygen-free pure copper is approximately 401W/(m·K). However, it was found the pure copper printed parts by high-purity oxygen-free copper powder with

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The Effects of Graphite and Mo₂C Particles on the Sintering and Mechanical Properties of 18Cr4VNbMo Powder

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The Effects of Graphite and Mo₂C Particles on the Sintering and Mechanical Properties of 18Cr4VNbMo Powder 18Cr4VNbMo is a high-carbon alloy steel commonly used in the manufacture of cutting tools. Its mechanical properties are significantly superior to those of traditional manufacturing through the super-solidification line liquid-phase sintering (SLPS) based on the temperature difference between the

The Effects of Graphite and Mo₂C Particles on the Sintering and Mechanical Properties of 18Cr4VNbMo Powder Mehr lesen "

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