Making Fictional Alloys and Materials Real?

[SpyderEdgeForever]

Okay everyone, Larrin, sal, and all of you great folks, when you can, let's see how fantasy and fictional materials can be made with real world materials and processes.
Remember, MagnaCut and H1 were once fantasy until made real.

Let's start with the metal called Tritanium, which is featured in Star Trek and other science fiction.

According to Google:

"Tritanium alloy is a fictional metal, not a real-world material, that appears in the Star Trek universe. It is an extremely durable, synthetic alloy of titanium, vanadium, and tungsten, and it serves as a common, robust construction material for starship hulls and armor in the Star Trek franchise.
Key Characteristics of Tritanium (Fictional)
Composition: It is an alloy made of titanium, vanadium, and tungsten.
Properties: Tritanium is characterized by its immense strength and durability.
Uses: It is widely used as a structural material for starship bulkheads, hull plating, and other armor.
Fictional Origin: The material is a product of the Star Trek universe, appearing in various series and films.
In essence, tritanium is a fictional material that exemplifies a highly advanced, super-durable form of a real-world material."


When Star Trek technical writers were asked for details, they said by the 24th century human science and engineering allows the use of Forced Matrix Alloys. Controlled force fields using quarks and gluons let them take titanium and iron and vanadium and tungsten and other atoms, and compress and glue them to produce metals harder and stronger than diamonds but super durable and heat resistant.

Maybe if we can learn to manipulate the zero point energy field like Nikola Tesla and Walter Russell and Thomas Townsend Brown allegedly did, we can make these alloys?