People will admire the strength and lightness of this metal, but its much greater value is its ability to receive magnetic energy without taking on a polarity. The space industry already uses alloys that are similar in composition to this one, but it's the pouring procedure and the exact element ratios that produce this extremely special alloy capable of changing our world and welcoming in a new era of scientific discovery. The Universe is teeming with countless variations of magnetic energy that provide more insight into the actual workings of the Universe than anything else being currently analyzed. The entire EMF spectrum doesn't even touch the insights that will be gained by examining and documenting the magnetic energies in the Universe. That's what TiAlCo-B will help do. It will lead to countless discoveries including the ability to travel through space at a nearly infinite velocity. Every industry will be impacted by this metal. For example, in the medical field...forget about x-rays, TiAlCo-B will assist doctors in safely examining the entire human body down to the sub-atomic levels and know exactly what needs to be fixed using pulsing neutral magnetic fields.
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This metal is a gift from higher intelligence to the people of earth.
Blending the Space Ship Metal
***A vacuum chamber is not recommended to make this metal, as it will prevent the necessary molecular interactions.
This process requires four crucibles, with separate temperature controls, that will allow the metals to be poured from one crucible to another.
First, in crucible #1 melt 3.85 pounds (10.8%) Magnesium at 648.8°C. Next, cool to 419.58°C. at which point 4.28 pounds (12.0%) of Zinc is added as chunks into the Magnesium. (NOTE: all blending of elements requires mixing.) The temperature should not fall below 419.58°C. The Zinc, considered the dispensable element is not dispensable in the sense of doing without, it contributes to the transformation process. The Magnesium ignites when it is heated because it is attempting to redistribute it’s energy in the easiest manner. When Magnesium is offered magnetic energy and a alternative redistribution path, it will utilize the energy and basically heat itself to the required temperature. The mini romag is ideal for providing this function to the Magnesium.
Next, in crucible #2 heat 10.59 pounds of Aluminum (29.7%) melted at 660.37°C. This Aluminum is then (over a period of several minutes) poured into the Magnesium/Zinc mixture using continuous mixing. The Magnesium, Zinc, and Aluminum blend is then heated up to 1,000°C to prepare it for the next step.
In crucible #3 melt 3.17 pounds of Manganese (8.9%). This Manganese is then cooled to the temperature of molten Copper. Then add 5.24 pounds (14.7%) of Copper powder. This adding of the Copper should be slow with the needed heating, so as not to drop the temperature. The temperature of these two elements is then adjusted to have 4.85 pounds (13.6%) of Red Brass Cast added. This Red Brass Cast must be made of Copper - 84.15%, Tin - 4.40%, Lead - 5.42%, Zinc - 5.13%, Iron - 0.17%, Antimony - 0.12%, Nickel - 0.58%, Phosphorus - 0.007%, Sulfur - 0.019%. After this blending is completed, the Manganese/Copper/Red Brass Cast is slowly added to the Magnesium, Zinc, and Aluminum blend (which should be at 1000°C)
The heat on this blend will next be raised up to 2,000°C. in readiness for the next process requirement. Next, 2.25 pounds (6.3%) of Chromium is melted. Next, added to the Chromium is 1.43 pounds (4.0%) of Titanium Dioxide.
VERY IMPORTANT: Before the Titanium Dioxide is added to the Chromium, the blended elements (all of which are in one crucible) must be up-heated to 2000°C. The MOMENT they reach the 2,000-2,100°C., IT IS THEN that the Titanium Dioxide is added to the Chromium. The time lapse should be as short as possible between when the Titanium Dioxide is mixed with the Chromium and these two blended items are added to the other elements. Thus, after a minute of mixing these two elements, they are quickly poured into the crucible containing all the other elements. The mix MUST NOT go below 2,000° C. The metals, when blended, should be at no less than 2,000°C. and no more than 2,100° C.
Finally, all the metals are stirred for one minute and the mixture is quickly poured into a mold.
SILICON NITRIDE MOLD
A preheated mold of this material should be at 700°C. and the mold should be filled AS SOON AS POSSIBLE. The mold is then placed in a room set at 22°F. with air blowing above and below the mold to cool it quickly. After approximately 4 to 5 hours, it will be cooled and can be removed.
This process, if accomplished as instructed, will produce a SPACE SHIP METAL with the qualities herein stated.
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