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NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

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NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

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NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

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NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

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NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

VIEW DETAIL

NdFeB Magnet

NdFeB, also known as neodymium-iron-boron magnets or NdFeB magnets, is a tetragonal crystal system formed by neodymium, iron, and boron (with the chemical formula Nd2Fe14B), and belongs to the category of rare-earth permanent magnetic materials. This material was discovered in 1982 by Makoto Sagawa of Sumitomo Special Metals. NdFeB magnets are characterized by high remanent magnetism, high coercivity and high magnetic energy product, and are by far the second most magnetic permanent magnet after holmium magnets at absolute zero, as well as the most common rare-earth magnet.

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Laminated Magnet

Segmented permanent magnets are made by cutting off the original whole magnet into many small magnets, which are then bonded to form a permanent magnet of the original size. These small magnets are insulated from each other, which reduces electromagnetic eddy currents.

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Laminated Magnet

Segmented permanent magnets are made by cutting off the original whole magnet into many small magnets, which are then bonded to form a permanent magnet of the original size. These small magnets are insulated from each other, which reduces electromagnetic eddy currents.

VIEW DETAIL

Laminated Magnet

Segmented permanent magnets are made by cutting off the original whole magnet into many small magnets, which are then bonded to form a permanent magnet of the original size. These small magnets are insulated from each other, which reduces electromagnetic eddy currents.

VIEW DETAIL

Laminated Magnet

Segmented permanent magnets are made by cutting off the original whole magnet into many small magnets, which are then bonded to form a permanent magnet of the original size. These small magnets are insulated from each other, which reduces electromagnetic eddy currents.

VIEW DETAIL

Laminated Magnet

Segmented permanent magnets are made by cutting off the original whole magnet into many small magnets, which are then bonded to form a permanent magnet of the original size. These small magnets are insulated from each other, which reduces electromagnetic eddy currents.

VIEW DETAIL
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