The writing about passive nanotechnological advantages in the material use of material design.

Kimmo Huosionmaa

When we are talking about nanotechnology, we are talking about the advanced and intelligent materials. Those materials can someday make possible to make one travel, what the mankind ever dreamed. The travel in the heart of the Earth could be possible if the vehicle will be made with material what crystallizes in the heat and pressure. In the next writing, I’m writing about the suits, but the same materials can be used in the stiff forms like capsules, what can be used in the trip in the heart of the earth. The ideal material for that trip is the material what will change harder when the temperature rises.


The imaginational craft what will use in this hypothetical trip will be like large thermos bottle, where the outer surface is made with the special materials what becomes harder when they will face the temperature and pressure, and the space between two cores could be empty, and the inner core will be war in the magnetic field. That’s why the outer core must be made with the magnetic material, and the craft will be using laser cutter and the magneto-dynamic propulsion when it will travel inside the earth. This is one thing what is good for the work as an artist. You can write anything, what you want, and if something goes too far on the side of science fiction, you can transfer the text as film manuscript.


 What the world will do with the material, what will crystallize in the heat. That kind of material can be used in the special suits, what are used in the special situations, where the person meets the extreme heat. Another very interesting thing might be compiled this kind of material to the material what will crystallize in the pressure. Here I mean that those materials may not have to be in the same cores of that form.


There might be two surfaces of that liquid in the overwear, and if the person uses those clothes in the situations where the person might face the extreme situations, where they will face extreme heat and pressure. Those materials might cause the revolution in the deep sea submerged scuba diving equipment, and the protection of the firemen, who are working in the extreme situations.  The problem with crystallizing material is that it will become stiff, and the suit will lose it elastic capacity, and the man who uses it is not able to move freely.


If the scuba diving suit will equip with the surface, what will be hardener when it faces the pressure, that will, in theory, make possible to produce the next generation suits what are useful against sharks and of course other animals if that suit is used on the dry ground. When the shark or other animal bites, that material will take its hard formation, and of course this kind of material is used in the situations, where the persons are working in the buildings, there is danger for the collapse, and there is a one more use of the materials what will crystallize under the pressure. The next generation bulletproof vests might be made by this kind of material.


The vest is filled with glee, what allows the person move freely, and if the bullet hits the surface, the material will crystallize immediately. And when the pressure will be lost, the material will take back it gel formation. The material itself is a nanomaterial what molecule structure looks like soap molecule. When that material is under the pressure, the silicon base hybrid peptide molecules will open, and then they will lock in the position, and makes the crystal form, what will protect the user against the bullet. Also, normal skateboard knee pads can be made of this material, what can be more comfortable to use than plastic knee pads.