As a leading magnet product factory, we specialize in the design, manufacturing, and distribution of high-quality magnets tailored to meet the diverse needs of industries worldwide.
At Newland, innovation is at the core of everything we do. Our state-of-the-art facility is equipped with advanced machinery and expertise to produce magnets of exceptional quality, precision, and performance. Whether you require custom-designed magnets for specialized applications or off-the-shelf solutions for everyday use, we have the capabilities and flexibility to fulfill your requirements with excellence.
With a commitment to excellence and customer satisfaction, Newland strives to push the boundaries of magnet technology, driving progress and innovation across industries such as automotive, electronics, healthcare, renewable energy, and more. Backed by a team of skilled engineers, technicians, and industry experts, we work closely with our clients to understand their unique challenges and deliver tailored magnet solutions that exceed expectations.
Discover the power of magnets with Newland and unlock endless possibilities for innovation, efficiency, and success. Contact us today to learn more about our comprehensive range of magnet products and how we can partner with you to propel your projects to new heights.
A variety of solid or liquid metals are weighed and placed in a holding vessel according to the recipe provided by the Technical Department.
Utilizing vacuum quick-setting dump belt furnace, the matched metal solids are loaded into the crucible made of copper wire, which is protected by certain vacuum, temperature, time and argon gas, melted into liquid, and then poured into flaky solid.
Utilizing the hydrogen breaking furnace, the flake solid from the melting furnace is flaked out, and under a certain temperature, time, and pressure, the flake solid is broken into finer metal flake solids through hydrogen absorption + dehydrogenation (utilizing the difference in the expansion coefficients of the metal neodymium-rich phases and the main-phase hydrides).
Under the action of high-pressure airflow and the protection of nitrogen, the airflow mill is utilized to make the fine flake solids impact, rub, and shear each other into finer metal powder solids. And through the cyclone separator, the coarse and fine powders are separated and transferred to each level for collection.
Using the molding press, the powdered solid is magnetized, pressed, demagnetized and other actions through the magnetic field of the mold and press and the protection of nitrogen, so that the powder is uniformly aligned according to the direction of the magnetic field, and then pressed to form the desired shape of the blank, and vacuum packed.
Utilizing the vacuum sintering furnace, the high-density raw billet after isostatic pressing, under the action of certain vacuum, temperature and time, through different temperature processes (high temperature sintering, primary aging, secondary aging), so that the product reaches the customer’s desired performance of the blank.
Utilizing professional testing equipment to test the product in various aspects to ensure that the product meets the specification requirements.
We utilize a variety of equipment to perform several types of machining on products, such as grinding, cutting, drilling, turning, and chamfering.
Processing that utilizes the principle of electrolysis as a method of laying down a layer of metal on an electrically conductive body. Plating is divided into hanging, rolling, continuous and brush plating, etc. The choice of plating method is mainly related to the size and batch size of the parts to be plated.
According to the order requirements, the products are packaged before magnetization, re-magnetized and finally boxed.
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