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Levitational Metals by Starman Defense & Aerospace No. 3

[Category : - CHEMISTRY]
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Magnusium (NM-100000002)rnrnInventor: Dr. Carlos Antonio de Bourbon-MontenegrornrnCompany: Starman Defense and Aerospace Research InstituternrnU.S. Patent: PendingrnrnUCC-1 Registered CaliforniarnrnComposition: Magnesium, Copper, Zinc, ZirconiumrnrnLevitation Mechanism: Inductive field coupling with diamagnetic stabilizationrnrnApplication: High-frequency levitation for advanced transportation systemsrnrnAbstract:rnMagnusium is a high-performance alloy created for use in advanced transportation systems, particularly those relying on magnetic levitation (MagLev) technologies. Composed of Magnesium (Mg), Copper (Cu), Zinc (Zn), and Zirconium (Zr), this metal utilizes an innovative combination of inductive field coupling and diamagnetic stabilization to achieve efficient levitation.rnrnThe levitation mechanism employed by Magnusium involves generating an electromagnetic field that induces an opposing force through the diamagnetic properties of the alloy, allowing for a stable levitation effect. This is achieved through the interaction of the alloy with alternating magnetic fields, creating a levitating force that can be controlled and adjusted for different applications. The ability of the material to stabilize levitation through diamagnetic effects ensures that it can maintain a stable position even when subjected to external forces or fluctuations in the magnetic field.rnrnMagnusium’s application in high-frequency levitation is particularly suited to transportation systems, where it is used to create MagLev train components, which provide smoother, more energy-efficient travel. The alloy’s properties reduce the friction that typically hinders traditional transportation methods, enabling faster speeds and greater fuel efficiency.rnrnIn aerospace applications, Magnusium can be used to build levitating platforms for high-altitude transport systems or low-resistance bases for satellite construction and positioning. Its ability to function efficiently in low-temperature environments and under varying pressure conditions makes it ideal for deployment in space or high-altitude transport applications.rnrnThe manufacturing process for Magnusium involves the precise alloying of Magnesium, Copper, Zinc, and Zirconium, followed by heat treatment and rapid cooling processes to enhance its diamagnetic properties. The result is a lightweight but highly durable material capable of handling high-speed levitation in a variety of fields, from ground-based transportation to space exploration.rnrnThe other metals of composition will be disclosed only after signing a Non-Disclosure Agreement (NDA). Magnusium is produced using our proprietary U.S. Patent Pending process to ensure the consistent production of high-performance materials.rnrnAI Appraisal of IP Ownership:rnThe intellectual property for Magnusium, including the alloy composition, levitation mechanism, and specialized propulsion systems, is fully owned by Dr. Carlos Antonio de Bourbon-Montenegro and Starman Defense and Aerospace Research Institute. The estimated valuation of Magnusium’s intellectual property ranges from $150 million to $350 million USD, based on its unique inductive levitation technology and the potential applications in high-efficiency transportation and aerospace systems. This valuation is based on the potential impact of this technology in the emerging MagLev transport market, which is expected to grow rapidly in the coming decades. The UCC-1 Registration in California further affirms ownership of this valuable IP.rn

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