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TiN Powder

TiN Powder TiN powder (Titanium Nitride powder) is a ceramic compound and a material with distinct properties and applications for its extreme hardness, high melting point, chemical stability, and electrical conductivity, making it useful in wear-resistant coatings, cutting tools, electronics, and decorative finishes.  Our Titanium Nitride (TiN) powder is produced by Vacuum Nitriding or Spray […]

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WC-Ni60 Powder

WC-Ni60 Powder WC-Ni60 powder is a composite material combining tungsten carbide (WC) and Ni60 nickel-based alloy (NiCrBSiFe), primarily used in wear-resistant coatings for components like brake discs. The tungsten carbide provides extreme hardness to resist wear, while the Ni60 alloy offers good corrosion, oxidation, and heat resistance, acting as a binder to form dense, high-performance coatings with

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WC-12Co Polvo

WC-12Co Powder WC-12Co powder is usually composed of cemented tungsten carbide skeleton and cobalt metal binder, is a kind of material with excellent hardness and excellent wear resistance, which is convenient for its application in the manufacturing of cutting tools, drills, wear parts, etc. Generally, WC-12Co powder is produced by Sintering Crushing or ball milling

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TiC Polvo

TiC Powder TiC powder, or Titanium Carbide powder, is a gray, metallic, extremely hard material known for its exceptional wear resistance, high melting point, excellent corrosion resistance, and good thermal and electrical conductivity. It is used in manufacturing wear-resistant materials, cutting tools, abrasives, high-temperature components, and cermets. It is also used in the coatings and thermal spraying industries

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 Laser powder bed fusion process and mechanical properties of Haynes 188 (GH5188) 

Laser powder bed fusion process and mechanical properties of Haynes 188 (GH5188) Haynes 188 (GH5188) is used in heavy-duty gas turbine combustors due to its balanced high-temperature performance (maximum service temperature 980°C). The mechanical properties of Haynes 188 produced by laser powder bed fusion (LPBF) have not been thoroughly studied. In this study, our engineers

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Control of oxide inclusions in ODS FeCrAl steel by LPBF parameters

Control of oxide inclusions in ODS FeCrAl steel by LPBF parameters

Control of oxide inclusions in ODS FeCrAl steel by LPBF parameters Heat input is correlated with melt pool geometry and oxide inclusion content. Our researchers have modified laser powder bed melting parameters to produce an ODS-FeCrAl steel free of Y-Al-O oxide inclusions from a Fe-22Cr-5.1Al-0.5Ti-0.26Y and TiO₂powder mixture. This research provides a feasible method for

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Cavitation Erosion Resistance of Fe50Mn30Co10Cr10 High Entropy Alloy

Cavitation Erosion Resistance of Fe50Mn30Co10Cr10 High Entropy Alloy

Cavitation Erosion Resistance of Fe50Mn30Co10Cr10 High Entropy Alloy HEA powder, composed of Fe50Mn30Co10Cr10, with a particle size ranging from 45 to 105 μm, was prepared in an argon atmosphere using gas atomization method. The substrate is AISI 304 stainless steel board. The laser scanning follows zig-zag route. And the powder is transferred in a speed

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3D printing of new martensitic stainless steel

3D printing of new martensitic stainless steel Ultra-high-strength martensitic stainless steel has excellent mechanical properties (stronger than austenitic stainless steel) and corrosion resistance (stronger than maraging steel), making it widely used in transportation, machinery, molds, and other fields. Our team has developed a new type of ultra-high-strength martensitic stainless steel, 10Cr13Co13Mo4Ni2NbW, using LPBF and cryogenic

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Aleación de cobre CuAl10

Efecto de la adición de Ni en la microestructura y propiedades de

Recubrimiento Láser de Aleación de Cobre CuAl10 Efecto de la Adición de Ni en la Microestructura y Propiedades del Recubrimiento Láser de Aleación de Cobre CuAl10 En los campos de la ingeniería naval, equipos químicos, etc., las aleaciones de cobre son ampliamente utilizadas debido a su excelente conductividad térmica y resistencia a la corrosión, pero su insuficiente dureza superficial y resistencia al desgaste a menudo limitan su vida útil.

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Imágenes SEM del polvo de Rene 125

Selección de la temperatura HIP para la superaleación LPBF Rene125

Selección de la temperatura HIP para la superaleación LPBF Rene125 La aleación Rene125 es una superaleación de base níquel solidificada direccionalmente con excelentes propiedades mecánicas a alta temperatura, una extraordinaria resistencia a la oxidación y una notable resistencia a la fluencia. Estas propiedades la hacen especialmente adecuada para componentes de alta temperatura en aplicaciones aeroespaciales, como los álabes de turbina. Aunque la tecnología tradicional de solidificación direccional (DS) presenta ventajas en

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