The new materials make the new types of flexible armor possible.

"Researchers have developed a soft, flexible material with adaptive durability that strengthens upon impact, suitable for wearable technology and medical sensors. Credit: SciTechDaily.com" (ScitechDaily, Science’s Latest Marvel: Electronic Material That Grows Tougher on Impact)

This particular material uses nano-pikes to transport energy out of the structure. But the acoustic diamond in the middle of that structure can make the energy transport even more effective. 

The materials that are turning harder in pressure and impacts are possible. Theoretically, this kind of material allows people to create tools that can operate in magma. Some structures can transport impact energy and thermal energy out from the material. That makes the material unable to break. The idea is that when the energy level around the energy-moving structure rises higher. 

And the energy level in the middle of it turns lower about its edge, which makes energy travel faster to that energy pocket. That effect pulls structure components tighter when that material faces thermal or electromagnetic stress. If the structure can collect the energy into one place. And then transport it out from the structure. 

This structure can look like a parabolic plate there is a nanodiamond in it. The ring around that diamond pumps energy into it. That diamond conducts energy out from that nano-quantum structure. Reflecting energy waves push the impacting material away. That material can form things like bricks that allow them to make strong and flexible structures. 

"Clouds of smoke billow out of a borehole created when scientists accidentally drilled into a magma chamber in 2009." (Business Insider, Iceland scientists want to drill a hole straight into a reservoir of molten magma about a mile underground. It could generate limitless energy.)

The new energy sources require extreme heat and mechanical sustainability. 

Fusion reactors must keep their form in the intensive heat. But another thing that requires extreme materials is the next-generation geothermal plants. Icelandic researchers planned to make a geothermal power station that drills holes into the molten magma. 

This kind of geothermal system can give high-power green energy. The system requires a thermal pump that transports heat energy out from the magma. And that system requires extreme materials. 

But maybe the Earth's core is a little bit too hot. 

In some models, the probe that travels in the Earth's core would use a symmetrical iron shell. The probe will be a ball-shaped craft. That structure denies the outside pressure to break it. There would be a vacuum between that molten iron and the internal structure that involves the instruments. The electromagnetic oscillation or acoustic waves from the hull of the craft keep the molten iron shell away from its internal structure. 

In the middle of that system could be a nanotube or some other type of energy channel, their acoustic or electromagnetic system transports heat from outside it. That system forms a bubble below that thing. That bubble pulls the probe ahead. The pressure wave that travels at the front of the craft pushes high-energy magma away from the craft's route. This is one thing that can make this system real in the distant future. 

https://www.businessinsider.com/iceland-scientists-drill-magma-chamber-source-kmt-geothermal-energy-limitless-2024-1

https://www.popularmechanics.com/science/energy/news/a23490/iceland-3-mile-hole-magma/

https://theenergyyear.com/news/iceland-team-to-drill-into-magma-chamber-in-global-first/