Soft Magnetic Materials

    Innovations for modern applications

    HTFM: High-Temperature Ferrite Material

    High-Temperature Ferrite Material (HTFM) is designed for use in extreme temperature ranges. These ferrite materials retain their magnetic properties even at high temperatures and are therefore perfect for applications in the automotive industry, aerospace and high-performance electronics.

    HFCM: High-Frequency Composite Material

    High-Frequency Composite Material (HFCM) has been specially developed for applications in the high-frequency range. These materials offer excellent magnetic permeability and low losses at high frequencies, making them ideal for modern telecoms equipment and high-frequency transformers.

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    Understanding Materials

    The impressive properties of these materials make them indispensable components in numerous applications.

    The unique properties of soft magnetic materials make them a key factor for advances in electrical engineering and electronics, especially where high efficiency and reliability are required.

    Frequency stability and frequency effectiveness: 5 GHz
    These materials offer excellent frequency stability and effectiveness up to 5 GHz, making them ideal for high-frequency applications. They ensure constant performance even at high frequencies.

    Saturation induction: 2 T
    With a high saturation induction of 2 Tesla, these materials are capable of generating strong magnetic fields, which makes them ideal for powerful magnetic applications.

    Curie temperature: 800 °C
    The Curie temperature of 800 °C allows these materials to be used in extreme temperature environments without compromising their magnetic properties. Magnetostriction-free and 3D isotropy
    Soft magnetic materials are magnetostriction-free, which means that they show no mechanical deformation under magnetic influence. Their 3D isotropy ensures that they have the same magnetic properties in all directions, which increases their versatility.

    Minimal losses
    Thanks to their minimal magnetic losses, these materials are particularly efficient and contribute to energy savings, making them indispensable for modern, sustainable technologies.

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