Ultrite is a heavy metal alloy discovered from the alloy chunks captured from Planet Pele. It is a material that can be made into anything.
The alloy was discovered after members of the Mining Guild went to the new planet they chose to call Planet Pele and started using electromagnetic fields to capture flying magma rocks. Turns out a location called Masasume point, Titanium, Steel, Tungsten, Chromium, and iridium were located in abundance. When the volcano erupts, these metals come up in the blast, and when they are caught in the electromagnetic field, it pushes the alloys together with such a major pressure, that their molecules have no choice but to merge. Since it was so hot, they had to scan and teleport using the molecules reading. The metal came out shiny like stainless steel, but it was very hard and durable. They chose to name the allow Ultrite and they later sent the metal to the Department for research and development.
The finished product generally has a silver reflective look to it, but other colors can be made of the material including new color mixtures
Ultrite’s composite makeup is made up of equal parts Titanium, Steel, Tungsten, Chromium, iridium. During their molten origins, the electromagnetic field crushed the molten alloy so constricted. This began to affect the alloy at the molecular level since heat is being used, this made the molecules separate, and by the force of the crush, the molecules began forming back together, but not to their original positions but new ones, and to new different molecules that stabilized into something new.
As this happened at the molecular level, at the normal level, the heat and the pressure cause the alloy to begin to visibly merge, spreading and filling the metal changing as they merged. The metal with the addition of Chromium causes the finished new metal to be silver and reflective which is similar to the state of stainless steel.
some possible characteristics and applications of Ultrite:
Extreme Durability: Ultrite could be known for its unparalleled strength and durability. Its composite nature, incorporating tough materials like Titanium, Steel, and Tungsten, could make it exceptionally resistant to wear and damage.
Heat Resistance: The inclusion of Chromium and Iridium might provide Ultrite with exceptional heat resistance. This could make it suitable for use in environments with extreme temperatures, such as spacecraft re-entry or the construction of advanced industrial equipment.
Lightweight: Despite its incredible strength, Ultrite might be surprisingly lightweight due to the Titanium component, making it ideal for applications where weight is a crucial factor, such as aerospace engineering or high-performance sports equipment.
Corrosion Resistance: Chromium and Iridium are both highly corrosion-resistant materials. This property could make Ultrite well-suited for underwater applications, such as deep-sea exploration or the construction of submarines.
Energy Conductivity: The Tungsten in Ultrite may provide excellent electrical conductivity, making it valuable for electronic applications and high-tech devices.
Aesthetics: Given the materials used, Ultrite could have a sleek and futuristic appearance, with a polished, metallic sheen.
Versatility: Ultrite's unique combination of properties could make it versatile and adaptable for various applications. For instance, it could be used to create advanced armor for military purposes, cutting-edge tools, or components for space exploration.
What is required is the materials it’s made out of and a very hot place, volcanoes can be found all over the universe on any tropical planet, but the chances that the elements would be within the volcano is rare. Unless the top conditions are met, then they can make Ultrite, but so far it is only available to the Mining Guild and those they sell it to.
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