20240013975. SAMARIUM COBALT AND NEODYMIUM IRON BORIDE MAGNETS AND METHODS OF MANUFACTURING SAME simplified abstract (LAWRENCE LIVERMORE NATIONAL SECURITY, LLC)
SAMARIUM COBALT AND NEODYMIUM IRON BORIDE MAGNETS AND METHODS OF MANUFACTURING SAME
Organization Name
LAWRENCE LIVERMORE NATIONAL SECURITY, LLC
Inventor(s)
Joshua Kuntz of Livermore CA (US)
Scott K. Mccall of Livermore CA (US)
Christine A. Orme of Oakland CA (US)
Alexander A. Baker of Pleasanton CA (US)
Jonathan R. I. Lee of Livermore CA (US)
SAMARIUM COBALT AND NEODYMIUM IRON BORIDE MAGNETS AND METHODS OF MANUFACTURING SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240013975 titled 'SAMARIUM COBALT AND NEODYMIUM IRON BORIDE MAGNETS AND METHODS OF MANUFACTURING SAME
Simplified Explanation
The abstract of the patent application describes a magnet that has a three-dimensional structure with nanoscale features. This structure is designed to have a near net shape, meaning it closely corresponds to a predefined shape.
- The magnet has a three-dimensional structure with nanoscale features.
- The structure of the magnet closely matches a predefined shape.
- The magnet is designed to have a near net shape, minimizing the need for additional shaping or processing.
Potential Applications:
- Magnetic storage devices: The magnet's nanoscale features could enhance the performance of magnetic storage devices such as hard drives.
- Electric motors: The magnet's three-dimensional structure could improve the efficiency and power output of electric motors.
- Magnetic resonance imaging (MRI): The magnet's nanoscale features could enhance the resolution and sensitivity of MRI machines.
Problems Solved by this Technology:
- Complex shaping processes: The near net shape of the magnet reduces the need for complex shaping processes, simplifying manufacturing.
- Performance limitations: The nanoscale features of the magnet improve its performance in various applications, overcoming limitations of traditional magnets.
Benefits of this Technology:
- Improved efficiency: The three-dimensional structure and nanoscale features of the magnet enhance its efficiency in various applications.
- Enhanced performance: The magnet's design and features improve its performance in magnetic storage, electric motors, and MRI machines.
- Simplified manufacturing: The near net shape of the magnet reduces the complexity and cost of manufacturing processes.
Original Abstract Submitted
a magnet includes a three-dimensional structure with nanoscale features, where the three-dimensional structure has a near net shape corresponding to a predefined shape.
