From University Lecturer to Chief Academician

Chapter 440 This gap does not make sense! The beginning of nuclear fusion research!

Aeronautical Materials Institute, a large experimental room in the back base.

Wang Hao stood in front of the experimental console, staring at a small group of powdery objects on the stage, and asked, "Is this the extracted granular material?"

"right."

Cao Dongming nodded and said, "There are many other (materials) over there, but they are all large particles, and they are not shaped. We separated them later, and only got this small pile of materials, which were confirmed to be semi-topological structures by microscope observation. particle form."

Wang Hao nodded slightly.

Yang Yunhe pointed to the stirrer on the operating table, and introduced impatiently, "Academician Wang, look at this again, the stirrer designed by our team."

"In this study, the agitator played a huge role. We made three consecutive improvements and did many experiments before confirming that this form can separate granular materials."

Wang Hao followed and looked over.

The stirrer is a metal pillar with complex fan blade design around it, which can be understood as the sawtooth of the wall breaker to a certain extent. During the experiment, the stirrer shattered the metal liquid completely through rapid rotation, making it a Small particles one by one.

Qu Gui also said, "Our several experiments are mainly aimed at the mixer, and there is nothing else that can be adjusted."

"We both thought the shape of the blender was the breaking point."

"Experiments have shown that this is indeed the case."

Yang Yunhe is also very happy to be affirmed, because the mixer is the research done by his team, and it can play a role in the experiment, which is his achievement and credit.

Wang Hao walked over to inspect it carefully, touched a few fan blades, nodded and commented, "It's amazing!"

Yang Yunhe was immediately excited.

Although he is much older than Wang Hao, the academic influence of the two parties is not at the same level at all, and it is also gratifying to be affirmed by Wang Hao.

Both are academicians.

But the gap between academicians and academicians is very large, even unbelievably large.

Some academicians can be famous through the ages, and their research is considered to have made great contributions, while some academicians are simply unknown, and most of their research is not recognized.

Yang Yunhe belongs to the latter group. His research fields are metal processing and precision processing, which is biased towards engineering, and most of his achievements are also relatively small.

In addition, high-end manufacturing and precision machining are big fields.

There is a lot of research in the field of large fields, and his research is just adding bricks and tiles. Some breakthroughs can improve the technical level, but some are highly replaceable, and it is hard to say how much the improvement will be.

Yang Yunhe has always hoped that he can have more outstanding achievements.

It is now.

The research on micron-scale granular materials is very important, and the agitator developed by the team led by him helps the new granular material manufacturing technology to achieve a breakthrough from 0 to 1.

Then they continued to tell Wang Hao about the experiment process.

Yang Yunhe also kept saying, "Now we have taken the first step, and the next step is to study slowly and continuously improve."

"A brand new manufacturing technology needs to be improved slowly."

"The most important thing is that we have produced it, which shows that this road is feasible..."

The others could only nod along.

Wang Hao just smiled. He didn't care about what Tang Yunhe said, but just continued to understand the experimental plan, various participations and experimental results.

After understanding most of them, he was silent for a while and said, "Well, you will do another experiment this afternoon, starting from material cutting to manufacturing."

"I want to see the whole process..."

This request came as a surprise.

Yang Yunhe said in surprise, "Academician Wang, it will take at least three days from cutting the material to producing it."

"Three days is three days."

Wang Hao said indifferently, "I made preparations before I came. This time I will stay in the capital for at least half a month, and I will go to the science and technology department next Monday."

"All right."

Yang Yunhe and Cao Dongming looked at each other, and immediately called other people to prepare for the experiment.

This time, repeat the previous experiment.

They have done many experiments in a row, and the preparation for the experiment is relatively simple. In the afternoon, the experiment will officially start.

The first preparation is to cut the material.

This part is in charge of Yang Yun and his team. The cutting of the material requires several manufacturing processes in order to achieve faster dissolution of the material at high temperature.

At the same time, it is to debug the equipment to ensure that a special environment corresponding to voltage, magnetic field and temperature can be produced.

During the whole experiment, Wang Hao stayed in the operating room, carefully checked each step, and would ask questions when he didn't understand.

This enables detailed insight into the entire manufacturing process.

In the afternoon of the third day, the experiment was over. They successfully produced granular materials in the container, but only a small amount of powdered materials were obtained after cooling, and most of them were still glued together or had no form at all. .

"There are only a few who have successfully separated."

"We think the main reason is still on the stirring rod." Yang Yunhe said, "We discussed making the fan blades more densely distributed, and then doubling the rotation speed of the central shaft, maybe we can get more powder particles."

Wang Hao nodded and said, "It is indeed related to the stirring rod."

His voice changed, and he said, "But I think it is not to make the fan blades denser, but to reduce the number of blades, and the speed of the central shaft should also be reduced."

"Reduce the quantity? Reduce?"

Yang Yunhe was completely puzzled.

Cao Dongming and Qu Gui also didn't understand. They also believed that the small number of powdery particles was caused by 'insufficient mixing'.

If the number of blades is increased and the rotational speed of the central shaft is increased, more powdery materials can be obtained.

Wang Haodao, "I watched the whole experiment process and every process, and there was no problem on the whole, but the powder particles obtained in the end were very few."

"So the problem must be with the blender process at the end."

"There is no problem with the superconducting metal solution, and the intensity of the stirring is high enough. So have you ever thought about the possibility that it may not be that the stirring is insufficient, but that the stirring is too sufficient."

"Those powder particles that have been separated are re-bonded together under more thorough stirring..."

Pointing to a large mass of metal stuck together, he said, "If you look at this mass of metal, you will find that it is composed of individual small particles."

"Most of the small particles have a semi-topological structure."

Having said that, enough is enough.

Yang Yunhe, Cao Dongming, and Qu Gui all looked at the lump of metal at the same time. Qu Gui simply walked over and put the metal under the equipment, and used the amplifier of the equipment to observe it.

This is a direct magnified observation, and the magnification is not so high, but it can still be seen that the metal is indeed composed of individual particles.

Yang Yunhe also went over to take a look, he was a little unwilling to believe it.

What Wang Hao denied was his judgment.

If Wang Hao's statement is correct, it proves that his judgment is wrong, and he couldn't help muttering, "Maybe it's not a semi-topological particle?"

"A lot of materials look like this when zoomed in..."

This statement also makes sense.

However, Cao Dongming and Qu Gui are more willing to believe in Wang Hao, and they can draw conclusions from the specific situation. They immediately asked others to do slice research on the lump of metal. As long as they observe it under more sophisticated equipment, they can know that the tiny What is the shape of the particles.

After the actual slice observation, the experimenters also made an enlarged picture, which shows the shape of more than a dozen tiny particles.

It is clear.

Wang Hao is correct.

"These are semi-topological particles, that is to say, we have separated them, but the stirring force is too strong, which makes them stick together." Cao Dongming concluded.

Wang Hao said, "This is also related to the magnetic field."

"Your magnetic field is designed in two directions. I think you can try to adopt a vertical circular magnetic field layout to keep the direction of the magnetic field and the direction of stirring consistent."

"That way, the small particles don't stick together as easily."

Wang Hao made another suggestion.

This time Yang Yunhe stopped talking, because the results have proved him wrong, but he was still very active in the experiment, and immediately studied with the rest of the team to remove the fan blades, and at the same time to modify the stirring container.

Cao Dongming found other people to modify the magnetic field generator together.

Although the magnetic field cannot quickly become a perfect circular layout, it is still no problem to control the whole to follow the stirring direction.

A day later, the research team conducted a second experiment.

This time, they didn’t need to make any preliminary preparations. They used the existing materials to do the final research directly. After pouring the melted predetermined materials into the container containing the superconducting metal liquid, the outer part was closed and the central stirring device was opened.

Accompanied by the sound of'buzzing', the stirring only lasted for about twenty seconds and then stopped.

After that, it enters the cooling and extraction process.

After entering this link, everyone already knew that the experiment was successful, because they could clearly see a large pile of powder particles, rather than a bonded substance.

Wang Hao couldn't help showing a smile.

Although the result is still uncertain, and the specific size of the produced granular material is unknown, even large particles of about a hundred microns can greatly improve the annihilation force field technology based on metal materials.

These include horizontal anti-gravity technology, conventional anti-gravity technology, and F-ray generation technology. F-ray generation technology is directly related to controllable nuclear fusion technology.

The biggest difficulty in controllable nuclear fusion technology lies in the reaction vessel.

Whether it is a tokamak magnetic field device or other theoretical research, the ultimate goal is to create a container for high-intensity reactions.

The current micron-scale granular materials can increase the strength of the DC anti-gravity field and the strong annihilation force field in the outer layer.

The inner anti-gravity field can slow down the reaction speed.

The intensity of the strong annihilation force field in the outer layer is high, and the maximum limit of energy that can be absorbed is high, which means that the value of the reaction intensity that the container can accommodate is higher.

This ensures security and stability.

After the experiment, Wang Hao also praised, "The research has finally made great progress. Everyone has done a good job. This research is really important."

"I don't have to keep it a secret from you."

"The day after tomorrow I will go to the science and technology department to talk about nuclear fusion technology. With the progress of granular materials, the foundation of nuclear fusion research will be more stable..."

"..."

What Wang Hao said was still shocking.

Cao Dongming and Qu Gui were very excited. They knew that the research was very important, but they only knew it was related to the annihilation force field before.

result……

Related to controlled nuclear fusion?

Yang Yunhe was also very excited, but he couldn't laugh a little bit, feeling that he was hit hard.

Before, he always felt that his research was very powerful, helping the research of granular materials to achieve a breakthrough from 0 to 1.

But if you think about it carefully, the basis of their research is Wang Hao's theory. Even if the breakthrough from 0 to 1 is achieved, they are done together. The research on the mixer is just a small difficulty.

When Wang Hao came to the Institute of Aeronautical Materials, it took only one week for their research to make great progress, which can be said to be a breakthrough from 1 to 100.

This gap...

It doesn't make sense!

...

Wang Hao went to the science and technology department to talk about nuclear fusion technology.

Decision makers in the science and technology department and other institutions want to know Wang Hao's views on nuclear fusion research, because nuclear fusion is a very important research, and it is not easy to make up your mind to do research.

Wang Hao's opinion is crucial.

Before Wang Hao was not interested in the research of nuclear fusion, the main reason was that he did not have enough foundation and started the project rashly to do large-scale engineering research. There were too many technical difficulties to be overcome. To really manufacture a controllable nuclear fusion device extremely difficult.

It's different now.

Wang Hao believes that there is already a certain foundation, and the research on nuclear fusion can also be discussed and put on the agenda.

That's what he said in the tech department.

Obviously.

Wang Hao's personal influence is very large, and his views even played a decisive role.

When returning to the West Sea from the capital, the science and technology department had already released the news in advance, and some media began to report tentatively in advance.

"Hundred Years Project: The Florist is Ready to Start the Nuclear Fusion Research Project!" "

"Nuclear fusion, a super project!" "

"Florist will become the first country to master controllable nuclear fusion technology!" "

"Our country may start the project within a year..."

A series of reports are all 'chasing rumors' without any substantive evidence, but there is a saying that goes well: Where there is no wind, there is no wave.

When many media reported together, they must have heard something, and the public opinion also launched a heated discussion, most of which were supportive.

Ordinary people just admire it, and the focus is on the reaction of the academic community.

The academic community is not very detailed about this news, and many experts have come forward and said, "It is unlikely to start nuclear fusion research in a short time."

"That is a huge project, at least calculated on the scale of hundreds of billions."

"Even if a new technology is adopted, its effectiveness is questionable. The research of nuclear fusion does not allow any mistakes, and there should not be enough basic support yet."

"Maybe it's just a discussion..."

The last statement has been recognized by many people.

There are many large engineering projects that are only in the discussion stage and have not been implemented. The most obvious example is the large particle collider.

In the past many years, we have been discussing the construction of the world's largest particle collider. The project has been demonstrated time and time again, but the result is that only the discussion has not been implemented.

Current nuclear fusion research is less reliable than large particle colliders.

That is definitely a bigger project than the collider, and there is still not enough basic research project, from entering the demonstration stage, to officially launching the project, and then to the research results...

How long is the time span?

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