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  • 14

    Sep

    What are the factors that affect the specific surface area of powders

    The specific surface area of a powder is an important physical property, which refers to the total surface area (in square meters) of an oxide powder per unit mass (in grams). The size of the specific surface area is related to factors such as particle size, shape, and porosity of the powder. Generally speaking, the smaller the particles and the higher the porosity, the larger the specific surface...
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  • 04

    Mar

    How to disperse the iron oxide Fe3O4 nanopowder

    After purchasing our company's nano iron oxide powder, the customer found that the particle size was larger during testing. Why is that? Because the particle size of nano powder is very fine, it is easy to agglomerate, so the large particle size tested is the particle size after agglomeration. So how can we effectively disperse nano iron oxide powder? Next, we will introduce how to use ultrasonic ...
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  • 11

    Apr

    What are the main factors affecting TEM resolution

    The major limitations on TEM performance are spherical aberration (also known as aberration), chromatic aberration, and astigmatism. The spherical aberration and chromatic aberration limit the resolution of traditional TEM. Both of these defects are inevitable when using static rotational symmetric electromagnetic fields. Ball aberration is the most important factor determining the performance of ...
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  • 16

    Apr

    The Effect of TiC Content on the Microstructure and Wear Resistance of AlCoCrFeNi High Entropy Alloy Cladding Layer

    High entropy alloys (HEAs) are a new type of structural material composed of five or more elements in nearly equal atomic ratios, exhibiting characteristics such as high entropy effect, lattice distortion effect, slow diffusion effect, and cocktail effect. Laser cladding technology can significantly improve the hardness, wear resistance, and corrosion resistance of HEAs cladding layers due to its ...
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  • 25

    Sep

    What are the factors that affect the formation of metal powder

    The factors that affect the forming process mainly include the properties of the powder, the characteristics and effectiveness of additives, and the pressure, pressurization method, and pressurization speed during the pressing process. The properties of the powder mainly include the particle size, particle size distribution, particle shape, and moisture content of the powder. First. The influ...
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  • 05

    Feb

    FeNi50 Metal Powder: A Stable Iron Nickel Alloy Material Between Structure and Function

    FeNi50 metal powder is a medium to high nickel iron-based alloy powder based on the iron nickel binary system with a nickel content of about 50 wt.%. Its typical characteristics include stable austenite structure, excellent thermal expansion matching ability, good toughness, and adjustable magnetic properties. In the material system, FeNi50 is between low nickel structural alloys and high nickel I...
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  • 22

    Jun

    Technical Guide for Formulating Fe₃O₄ Nanopowder into Electrostatic Shielding Coatings

    This guide provides a comprehensive technical framework for utilizing magnetite (Fe3O4) nanopowder as a functional filler to formulate industrial protective coatings with superior antistatic and electromagnetic shielding properties. It specifically addresses critical engineering challenges such as nanoparticle agglomeration, sedimentation, percolation threshold optimization, and coating adhesion. ...
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  • 03

    Jul

    Technical Solution: Nickel Ferrite NiFe2O4 for Advanced EM Absorption & Shielding

    Technical Solution: Nickel Ferrite (NiFe2O4) for Advanced EM Absorption & Shielding 1. Material Identification Nickel Ferrite (NiFe2O4) is a high-performance soft magnetic ferrite with an inverse spinel structure. In this configuration, Ni2+Ni2+ ions and half of the Fe3+Fe3+ ions occupy octahedral sites, while the remaining Fe3+Fe3+ ions occupy tetr...
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  • 03

    Jul

    Advanced NiFe2O4 Nanopowder for Industrial & Scientific Applications

    1. Structural Paradigm: The Inverse Spinel Advantage Nickel Ferrite (NiFe2O4) stands as a premier magnetic semiconductor characterized by its inverse spinel crystal structure. In this configuration, Ni2+ ions reside in octahedral [B] sites, while Fe3+Fe3+ ions are split between tetrahedral (A) and octahedral [B] sites. This atomic arrangement facilitates strong&n...
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