We enjoy hearing about the positive experiences people have with magnets. Recently, we were delighted to see that magnets were making international news thanks to an incredible discovery one New York couple made while magnet fishing. Continue reading →
On September 5, 2021, researchers at MIT’s Plasma Science and Fusion Center (PSFC) reached a milestone in fusion energy research. They successfully tested a groundbreaking high-temperature superconducting magnet, achieving a record magnetic field strength of 20 tesla. This feat is a crucial step toward creating practical fusion power plants, potentially revolutionizing the future of energy with virtually limitless and clean power. Continue reading →
We enjoy hearing about the positive experiences people have with magnets. Recently, we were delighted to see that magnets were making international news thanks to an incredible discovery one New York couple made while magnet fishing. Continue reading →
For over a century, scientists have understood ferromagnetism and antiferromagnetism as the two primary classes of magnetic order in materials. Ferromagnets, like those found on refrigerator doors, have all their magnetic moments aligned in the same direction, creating a strong external magnetic field. Antiferromagnets, on the other hand, feature alternating magnetic moments that cancel each other out, resulting in no macroscopic magnetic effect. Continue reading →
Magnetic technology is rapidly evolving, presenting new possibilities in industrial applications. As we move through 2024, many of these advancements are not just theoretical possibilities but practical realities shaping the future of numerous sectors. Key trends include the development of stronger, more efficient magnetic materials, the advent of miniaturized magnetic components, and the surge in energy-efficient magnet designs. Continue reading →
In the early 1980s, the world witnessed a magnetic revolution that transformed industries ranging from automotive to renewable energy. At the heart of this revolution was the invention of neodymium-iron-boron (NdFeB) permanent magnets, a breakthrough that emerged from a cloak of corporate secrecy and competitive fervor. Continue reading →
In a study published in Scientific Reports, researchers from the University of Basel, the Swiss Nanoscience Institute, and the Paul Scherrer Institute shed light on a fascinating phenomenon: surfaces coated with rare earth oxides gain water-repelling characteristics upon exposure to air. These surfaces show this trait even at room temperature, owing to chemical reactions initiated by ambient hydrocarbons. Continue reading →
The story of magnetic design and distribution in Europe is layered. For example, Prodin, headquartered in Barcelona, Spain, has been at the forefront of magnetic distribution in Europe since its inception. Founded by Josep Llano, Prodin has weathered storms, adapted to changing market dynamics, and emerged as a leader in the field of magnetics. Continue reading →
As of late, there’s been progressively more and more discussions about rare earth magnet recycling, an industry that is still in its infancy… but gaining momentum. As recently as 2023, the industry was recognized due to a new technology that emerged from the UK startup, HyProMag, which was further supported by the US-led Mineral Security Partnership. Continue reading →
Background of Ferromagnetic Material & Magnetic Spin
First, let’s talk about ferromagnetic materials! When you break them down, ferromagnetic materials are made of atoms, which are made of electrons. These electrons act like tiny magnets in and of themselves. Typically, the orientations of these “magnets” are aligned within each region; however, each region is not aligned. When a magnetic field is introduced, the magnetic spins (orientations) in the separate regions line up. This is how the material becomes fully magnetized. Continue reading →
We enjoy hearing about the positive experiences people have with magnets. Recently, we were delighted to see that magnets were making international news thanks to an incredible discovery one New York couple made while magnet fishing. Continue reading →
On September 5, 2021, researchers at MIT’s Plasma Science and Fusion Center (PSFC) reached a milestone in fusion energy research. They successfully tested a groundbreaking high-temperature superconducting magnet, achieving a record magnetic field strength of 20 tesla. This feat is a crucial step toward creating practical fusion power plants, potentially revolutionizing the future of energy with virtually limitless and clean power. Continue reading →
We enjoy hearing about the positive experiences people have with magnets. Recently, we were delighted to see that magnets were making international news thanks to an incredible discovery one New York couple made while magnet fishing. Continue reading →
For over a century, scientists have understood ferromagnetism and antiferromagnetism as the two primary classes of magnetic order in materials. Ferromagnets, like those found on refrigerator doors, have all their magnetic moments aligned in the same direction, creating a strong external magnetic field. Antiferromagnets, on the other hand, feature alternating magnetic moments that cancel each other out, resulting in no macroscopic magnetic effect. Continue reading →
Magnetic technology is rapidly evolving, presenting new possibilities in industrial applications. As we move through 2024, many of these advancements are not just theoretical possibilities but practical realities shaping the future of numerous sectors. Key trends include the development of stronger, more efficient magnetic materials, the advent of miniaturized magnetic components, and the surge in energy-efficient magnet designs. Continue reading →
In the early 1980s, the world witnessed a magnetic revolution that transformed industries ranging from automotive to renewable energy. At the heart of this revolution was the invention of neodymium-iron-boron (NdFeB) permanent magnets, a breakthrough that emerged from a cloak of corporate secrecy and competitive fervor. Continue reading →
In a study published in Scientific Reports, researchers from the University of Basel, the Swiss Nanoscience Institute, and the Paul Scherrer Institute shed light on a fascinating phenomenon: surfaces coated with rare earth oxides gain water-repelling characteristics upon exposure to air. These surfaces show this trait even at room temperature, owing to chemical reactions initiated by ambient hydrocarbons. Continue reading →
