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Reason: None provided.

Further to my recent post of a long documentary about the Hutchison effect from the early nineties; while watching it I was reminded of this quote from "Esoteric Info on Electromagnetic Weapons"

" Based on advanced Soviet studies in electromagnetism that were leaked to the West in the latter half of the 1970s, Japanese physicists were opening the doors to new applications of electromagnetic (EM) energy.

(The Japanese interest is obvious—vastly more efficient uses of energy, with superconductivity, EM levitation and even untested cold fusion—could help energy-poor Japan weather future shocks like the oil boycott of the early 1970s.)

One Soviet industrial application of EM energy is “cold molding” of steel. Cold molding because hot molten steel is problematic. When casting very large objects, the metal tends to crack when cooling—these cracks are not necessarily visible, but can be microscopic crazing of crystalline structures. Welding is a good example of how microcracks lead to megadamage— ruptured pipelines in Arctic regions are nearly all due to such cracking.

Submarine hulls are another example of crack-vulnerable steel—which make the work of sinking subs all the more easier for depth charges. Molten steel is also difficult to handle in very small (nanostructures) objects, for microrobots. Hot molds leave rough edges that need to be ground—a task nearly impossible for complicated parts the size of a pinhead.

How is cold molding done? When two or more beams of intense microwave energy are focused on metal, they create a second wavelength due to interference. This secondary energy can cause a resonant vibration in the chemical-electrical bonds which the iron molecules in a crystalline structure.

(This is exactly what Hutchison was doing for years)

The rupture of these bonds and the collapse of the crystalline structure will turn the metal into a cold liquid state. After a short period of time, new bonds are formed and the metal hardens into its new shape."

Often in his experiments throughout the 80's, John Hutchison observed a phenomenon he referred to as "jelly metals". This phenomenon would appear to be the early stage of this "cold-molding" process. Video of this process is very hard to find, especially the original quality upload - but thankfully in the second part of the re-uploaded documentary there is extended footage of the effect (watch the first 15 minutes or so):

https://youtu.be/8thO7vL3i8A

2 years ago
1 score
Reason: Original

Further to my recent post of a long documentary about the Hutchison effect from the early nineties; while watching it I was reminded of this quote from "Esoteric Info on Electromagnetic Weapons"

" Based on advanced Soviet studies in electromagnetism that were leaked to the West in the latter half of the 1970s, Japanese physicists were opening the doors to new applications of electromagnetic (EM) energy.

(The Japanese interest is obvious—vastly more efficient uses of energy, with superconductivity, EM levitation and even untested cold fusion—could help energy-poor Japan weather future shocks like the oil boycott of the early 1970s.)

One Soviet industrial application of EM energy is “cold molding” of steel. Cold molding because hot molten steel is problematic. When casting very large objects, the metal tends to crack when cooling—these cracks are not necessarily visible, but can be microscopic crazing of crystalline structures. Welding is a good example of how microcracks lead to megadamage— ruptured pipelines in Arctic regions are nearly all due to such cracking.

Submarine hulls are another example of crack-vulnerable steel—which make the work of sinking subs all the more easier for depth charges. Molten steel is also difficult to handle in very small (nanostructures) objects, for microrobots. Hot molds leave rough edges that need to be ground—a task nearly impossible for complicated parts the size of a pinhead.

How is cold molding done? When two or more beams of intense microwave energy are focused on metal, they create a second wavelength due to interference. This secondary energy can cause a resonant vibration in the chemical-electrical bonds which the iron molecules in a crystalline structure.

The rupture of these bonds and the collapse of the crystalline structure will turn the metal into a cold liquid state. After a short period of time, new bonds are formed and the metal hardens into its new shape."

Often in his experiments throughout the 80's, John Hutchison observed a phenomenon he referred to as "jelly metals". This phenomenon would appear to be the early stage of this "cold-molding" process. Video of this process is very hard to find, especially the original quality upload - but thankfully in the second part of the re-uploaded documentary there is extended footage of the effect (watch the first 15 minutes or so):

https://youtu.be/8thO7vL3i8A

2 years ago
1 score