Hand rubbing nuclear fusion live in the wilderness

Chapter 233 Three Electrode Ion Generator

Han Won didn't expect these experts and scientists to be so resentful. After a little explanation of the 'three-electrode ion generator' and 'ion transport device', he started the manufacturing process.

The first to be processed is the 'three-electrode ion generator'.

Although it is a bit cheating to describe this black technology as a donut wrapped with countless chocolate coils.

But I have to say that it is still quite image.

The core body of a set of 'three-electrode ion generating device' consists of four parts.

Its doughnut-like structure is a highly magnetic nickel-iron alloy, which is divided into two parts, that is, two sides.

It's actually hollow, more like a car tire that's been cut down the centerline.

It's just that the hollow space inside is not that big, and the hollow part inside is a Z-shaped gully reserved during manufacturing.

The second core subject will be filled in the gully: "magnetic sensitive line".

This is something a bit like the 'magnet wire' inside generators and motors.

The main part is also made of copper, and also needs to be plated with an insulating material.

In addition, its smelting method is also very special.

"Magnetic sensitive wire", which is a metal wire wound by a combination of single crystal copper wire and silver wire.

Single crystal copper is a kind of high-purity oxygen-free copper, and its entire copper wire or copper rod is composed of only one grain, and there is no "grain boundary" between the grains.

"Grain boundaries", which are things that all materials have, reflect and refract the passing signal, causing signal distortion and attenuation.

Therefore, single crystal items basically have extremely high signal transmission performance, such as single crystal silicon is used to manufacture integrated chips.

Single crystal copper is no exception. It also has excellent electrical and signal transmission properties, and is also excellent in plasticity and processability.

Corrosion resistance and fatigue resistance are much better than ordinary copper.

The "magnetic sensitive wire" composed of single crystal copper wire and silver wire intertwined with each other has excellent electrical conduction, magnetic conduction, high-frequency signal transmission and other capabilities, and is an indispensable core part in the "three-electrode ion generator" .

The remaining two core components are the chocolate strands on the donuts and a set of high frequency converters.

There is no need to say anything more about the frequency converter. It is a power control device that uses the on-off function of power semiconductor devices to convert commercial frequency power to another frequency.

It has long been used in human society.

Another core component, the so-called 'chocolate wire', is actually a superconducting material.

"Tetrayttrium barium copper oxide high temperature superconductor".

Of course, this high temperature is not the kind of high temperature of thousands of degrees. In fact, "tetrayttrium lead copper oxide high-temperature superconductor" can achieve superconductivity at 360 degrees Kelvin.

When Han Yuan learned this kind of material for the first time, he deliberately searched in the "Elementary Smelting Knowledge Information".

The result was not found, it should be something in the knowledge information of intermediate material smelting.

If it is not included in the manufacturing data information of 'electric propulsion-no working fluid engine', then this is another difficulty that will get stuck.

But let's not talk about that now.

Metal wires made of 'Tetrayttrium Barium Copper Oxide High Temperature Superconductor' material, like the stator and rotor in a generator, are wound around a highly magnetic nickel-iron alloy structure.

The principle of the whole set of "three-electrode ion generating device" is somewhat similar to the "tokamak magnetic confinement device" studied by humans.

The superconducting wire wound on the highly magnetic nickel-iron alloy structure will generate a magnetic field. Because the magnetic field is strong at the center of the bend and the bottleneck, it can reflect the ions back, thereby restricting the free movement of the ions, and confining the ionized air ions to the magnetic mirror. Finally, it is transported into the 'thermal magnetic field' by the 'ion transport device'.

However, different from the 'Carmack magnetic confinement device', the superconducting wire wound on the highly magnetic nickel-iron alloy structure is closed and belongs to the circular superconducting tube.

From this point of view, it is more like a 'stellar device'.

These things are still easy to handle when you have mastered the manufacturing knowledge information, steps and principles.

With the help of the upgraded alloy smelter, it took a day for the Korean won to get out all the other materials except for the 'tetrayttrium barium copper oxide high temperature superconductor'.

Includes 'Magnetic Wire' consisting of single crystal copper and silver windings.

The remaining 'tetrayttrium barium copper oxide high temperature superconductor' is much more complicated in the manufacturing process.

In addition to the need for high-purity metal materials, vacuum smelting technology and superconductor oxidation coating technology are also required in the process of smelting and synthesis.

If it wasn't for the painstaking upgrade of industrial equipment in the past three months, South Korean won would have produced this kind of thing at all.

It's just too complicated to deal with.

Among other things, just a vacuum smelting equipment can stump him.

So even though it took nearly three months to upgrade industrial equipment, the Korean won still felt it was worth it.

Especially the huge gantry cranes, sliding tracks, electric hoists and other equipment in the steel bar factory, which must be used when assembling the aircraft later.

Otherwise, even if his physique is different from ordinary people, he will not be able to assemble the huge aircraft.

The preparation of the 'tetrayttrium barium copper oxide high temperature superconductor' material took nearly two days.

The speed is neither fast nor slow, but it is still within the expectations of the Korean won.

After producing all the material parts for the 'three-electrode ion generator', Won cleans up all the materials and transports them to the 'clean room' next to the steel bar factory.

Here, these material parts will be cleaned several times, and after being dust-free, they can be transported into the core assembly room for assembly.

Although the "three-electrode ion generating device" is not very demanding on the production environment, it can be assembled in a [-]-class clean room.

This standard is actually very low, and it can't even reach the production workshops for high-quality optical products in human society.

Not to mention the microelectronics workshops that manufacture semiconductors and integrated circuits.

That is the demanding one.

For example, during the second-level task, he was rubbing silicon carbide semiconductors by hand in the chemical laboratory, which actually did not meet the production conditions at all.

Although the cleanliness of the chemical laboratory is quite high, it is far from meeting the tenth class dust-free workshop required for the production of semiconductors.

If it is divided according to Huaguo's requirements for dust-free workshops.

Chemical laboratories and physical laboratories can be classified into 30-level dust-free workshops.

And the dust-free workshop where the 'three-electrode ion generating device' is assembled this time should be around [-] levels.

It can be used for testing, assembling aircraft gyro, and assembling high-quality miniature bearings and other cutting-edge parts.

In addition to this, in the huge clean room, there is also a Class [-] clean room that has never been used after its completion.

That's Korean won reserved for upgrading computer integrated chips.

The ground is paved with hardened plastic resin, the walls are made of aluminum alloy, and there are three floors of suspended ceilings except for the roof.

There are no windows, and ventilation is provided by ventilators and air conditioners.

To enter that room, you have to go through the entrance hall, change your shoes in the hall, and then enter the dressing room to change your coat.

Then enter the public washing room to clean and replace the clean protective clothing, then blow through the air, and then enter the core dust-free workshop after wearing the protective clothing.

A set of procedures will go down, and it will not be completed in less than half an hour.

Although it is still not up to the standard of a first-class clean room for the production and manufacture of integrated circuits in human society, there is nothing the Korean won can do.

This is the best clean room he can make so far.

In the thousand-level dust-free assembly room, Won wore protective clothing, a mask, and gloves, and assembled the 'three-electrode ion generator' little by little.

In the case that the parts and materials are complete, the assembly is troublesome, but it is not difficult.

However, there are still some shortcomings. Manual assembly is still not as good as mechanical automation.

Of course, except for his metamorphosis who has been strengthened by genetic enhancement drugs.

If countries in the real world rub their hands with the "three-electrode ion generating device" in this way, they may die miserably.

After all, once some parts of this kind of high-precision things are not handled properly, accidents will definitely happen during testing or operation, and it is still light to burn the equipment.

The first thing to be assembled is the 'magnetic sensitive wire' and the highly magnetic nickel-iron alloy structure. These two things are combined and then fixed.

Then the metal wire made of the 'tetrayttrium barium copper oxide high temperature superconductor' material is wound on the nickel-iron alloy structure in a specific way.

This is the troublesome place, because the winding of the coil has a fixed way, although it looks like individual chocolate wires from the drawing.

But in fact it is a combination of overlapping layers of X-shaped net patterns.

The most suitable step for this step is to use a computer to program and automate the process, and hand rubbing is too troublesome.

Seeing this step, the audience in the live broadcast room also sighed.

[It looks so troublesome. 】

[Feel like weaving rope?Pick and let go, and sometimes pass through. 】

[This anchor is really patient, if it were me, he would give up within a few minutes. 】

[Brain: It must be easy to do if it looks so simple.Eyes: mine?What's going on?What happened? What happened in the second step?Why is it the last one? 】

[Is it not good to get artificial intelligence out earlier?Wouldn't it be nice to have full automation?Rubbing your hands is really looking for abuse. 】

[By the way, this is not drawn on the drawings?On the drawing, it seems that the lines are entangled, and there is no such overlapping structure of the network pattern at all. 】

[Can't draw it?After all, it's not computer graphics, the anchor uses paper, he knows enough. 】

[Speaking of this thing, no one learns it? 】

【study?Labor and management can't understand it, learn from Zhang Wei! 】

[Don't worry about it upstairs, the country must have noticed this live broadcast room, maybe the anchor is doing it in the live broadcast, and the higher-ups have already done it together. 】

[Maybe how many scientists are squatting in this live broadcast room (ω). 】

(End of this chapter)