The conductivity of nano powder reaches 10,000 times that of copper, the high temperature resistance reaches 3,700 degrees, and the elasticity is super strong.

To make nanochips, it is necessary to make nano-integrated circuit boards, and then use lasers to draw circuit diagrams on them.

This requires nanoplastics and nanometals.

The nanopowders made by Ross are only 1 to 10 atoms in size, and the only way to mix the nanopowders with other substances is to arrange the atoms.

With the current methods of human beings, it is difficult to make nanoplastics with super performance.

Because no matter how advanced the molecular grinder is, it can only crush the plastic to 1 micron, which is 1000 nanometers, which is 1000 times that of an atom.

Something so big simply can't dock with atomic-level nanopowder recombination.

The only way to make plastic into plastic atoms is to use the stupidest way. Nanoplastics are made by evaporating plastic into gas, which contains countless atoms of various kinds, finding those plastic atoms, capturing them, and recombining them with nanopowder.

The craft may seem difficult to others, but not to Rose.

Because he has the world's most powerful hadron collider.

Ross gave the Atomic Carbonization Plant an order to suspend the manufacture of the 'Atomic Carbide' and leave all scientists to wait for their orders.

Ross asked the robot to turn on the production line, and tons of plastic evaporated into gas under the heat.

These gases are sucked into the pipeline, and through the low temperature treatment of minus 100 degrees, the gas in the pipe is affected by the low temperature, and many impurities and moisture solidify and fall down. Only a few gas-like atoms floated through the pipes to the 'atomic carbonization plant'.

When the gaseous atoms arrived at the atomic carbonization plant, Ross gave the scientists an order to use the hadron collider to take the atoms. Eject atoms and let them run in the particle acceleration track, accelerate the run, capture the needed atoms, and release the unwanted atoms.

In the atomic carbide factory, 1,500 foreigners were on Ross's orders. The Hadron Collider was activated. The gaseous atoms that poured in, driven by the electric current, rushed wildly in the particle acceleration track at a speed close to the speed of light.

A variety of different atoms were drilled into the atomic carbonization laboratory from 100 compression chambers under the action of magnetic force.

Ross arrives at the Atomic Carbonization Laboratory to analyze and test the atoms, which contain carbon atoms, hydrogen atoms, and 12 other heteroatoms to form plastic atoms.

These different atoms are driven to the atomic carbonization chamber. It is packed into vacuum bottles. As long as the various atoms needed to make plastics are mixed, plastic atoms can be formed, and nano powders can be added to form nanoplastics.

It took Ross a few days to finally get the technology of recombining nano powder and plastic atoms.

100 kg of plastic, evaporated into an atomic state. Impurities volatilize, forming atoms of various plastics. It weighs only about 100 grams.

Ross mixed 10 grams of nanopowder with 100 grams of plastic atoms, and after these atoms were arranged and recombined, he finally made a piece of nanoplastic.

The piece of plastic weighs only 110 grams, but it covers an area of one square meter, which is as thin as paper and extremely powerful.

Ross gives this piece of nylon as thin. When the pure transparent nanoplastic is painted, it becomes a plastic plate.

They are one of the best materials for making nanochips.

With nanoplastics, nanometals also have to be made.

Ross uses the same method to evaporate metal into an atomic state, sending atoms from the pipe to an atomic carbonization plant. Then use the hadron collider to accelerate the separation of atoms, and the unwanted atoms are integrated into the air and returned to the universe, and the needed atoms are driven to the atomic carbonization chamber.

Using the replication and recombination ability of nanopowder, a small piece of nanometal was reassembled.

Because the metal contains too many atoms and is too complex, 500 kilograms of metal can only be made into about 10 nanometals.

These 10 grams of nano metal are invaluable to Ross, they are 10,000 times more conductive, only 1/60 of the weight of steel, 300 times harder than steel, and about 10 grams of nano metal, the area is amazingly large, reaching 5 square meters.

Ross couldn't wait to return to the nanofactory with these two materials, and Ross directly gave instructions to Britney Spears and Tan Ying in the artificial intelligence building, asking them to direct the production of robots.

1000 intelligent robots walked in neatly, under the command of computer experts, obediently walked to the production line, they were networked with various laser high-precision machine tools, laser machine tools, and then started the operation program, began to produce a variety of nano parts.

Under the control of the program, some robots operate laser machines to cut nanoplastics and nanometals into micron-sized blocks.

Some robots use lasers to punch holes in these nanoplastics to facilitate the installation of various nanoparts.

Some robots operate laser and laser machines, drawing tiny circuit diagrams on nanometals.

Some robots, after mixing nano powder with ceramic powder, make poor nano ceramics, and use these nano ceramics as insulating materials.

Other robots operate laser machines to make nanoresistors and nanocapacitors from nano-ceramics and nano-metals that are invisible to the naked eye.

The level of manufacturing of these parts is beyond the reach of humans.

Because the nano parts are too small for the human eye to see, only the powerful electronic eye of a robot microscope can see each part clearly.

After the program of the robot is connected with the machine tool, the man and the machine are integrated, and under the command of computer experts, can complete the tasks that cannot be completed by humans.

The process of a nano resistor reaches 132 steps, the manufacturing of a nano integrated circuit board requires 924 processes, and a complete nano chip, on which various nano parts and nano integrated circuits need to be welded reaches thousands.

These technologies, where every step goes wrong, will waste precious nanomaterials.

Robots are different, every movement of them is of the highest standard, every step is accurate to the nanometer level, they will not make mistakes because of exhaustion, they will not be distracted by lack of concentration, and they will not want to work because of a bad mood, they are the most perfect technicians for human beings.

In the nano factory, the production line is improving over time, and the production of nano materials has also changed from the initial arc discharge method to the full use of six technologies to produce higher quality nano powder.

The ability of nanopowders to replicate and recombine allows them to easily recombine with a large number of atoms to form different nanomaterials.

All 3,000 robots were put into production, but they were too slow and the output was too low. The nano production line is too complex, a complete product needs to go through hundreds to thousands of processes, and a product, from raw materials to manufacturing success, takes more than ten days.

It will take time, and Ross can only wait. (To be continued.) )