From University Lecturer to Chief Academician

In the research on granular materials, many people at the meeting expressed their opinions one after another, and also raised the difficulties and problems of the research.

When the content is gathered together, it is found that there are many problems to be solved.

Wang Hao didn't care.

Some important issues will be recorded in the meeting, and some very good suggestions will also be recorded, which will be studied and discussed later.

However, most of the advice doesn't make much sense.

The materials scholars present are all working in the laboratory, studying how to prepare new materials, rather than doing material manufacturing work, and there are no scholars in nano-micro materials or other related fields. Relatively speaking, they are a bit unprofessional.

However, before researching the manufacturing method of granular materials, they can still conduct simple experiments to verify whether granular materials can improve the anti-gravity strength.

It is currently impossible to manufacture fine granular materials, but it can be verified experimentally using 'imperfect means'.

He Yi suggested, "We can make one-centimeter particles first, and then put them together to try the effect."

"If this method is effective, it can be verified by experimental results."

There is support for this claim.

It is indeed very technically difficult to manufacture granular materials with micron-level precision, and it is impossible to do it in a short time.

If you just manufacture particles with centimeter-level precision, and then fix the particles together through some methods, it will be relatively much easier.

Of course, the effect must be much worse.

On the second day, Wang Hao summoned the core researchers again to conduct research on the particle morphology of the FCW-031 material.

FCW-031 is a newly developed superconducting material with a critical temperature of 139K, which can generate a field strength of 0.93 (7%) at around 200K.

They're not trying to fine-tune the particles to a certain degree, just a rough shape to get the antigravity properties they inspire more in the same direction.

FCW-031 has gone through the anti-gravity characteristic experiment, and with the support of the layout of the bottom layer of the experiment, the rough granulation form has a specific plan soon.

It is an irregular tridecahedron shape.

One of the largest faces outwards presents a semicircular bulge, and the four small faces facing the direction are inward semicircular depressions.

"This shape is similar to the material layout, which can make the antigravity characteristics excited by the semi-topological structure inside FCW-031 more in the same direction."

"Theoretically, the direction facing the circular protrusion will concentrate the field force, and we can use this to match the overall material layout to stimulate a stronger anti-gravity field strength."

Wang Hao concluded.

After determining the shape plan of the FCW-031 material one centimeter particle, there is still a difficulty that has not been determined, that is, how to make the individual particles form a whole material.

Each particle is an irregular tridecahedron, and no matter how orderly it is arranged, it is impossible to form a whole.

Because the particles must be in the same direction, just sticking together, there must be a lot of gaps, which will affect the conductivity of the material.

As the current load becomes lower, the strength of the excited anti-gravity field will also be lower.

In the end, Wang Hao still asked everyone to go back and think slowly, and then submit an idea report. What he had to do was to find the most suitable one among all the plans, or gather several plans to come up with one new scheme.

This is the quickest and most effective method.

...

five days later.

The discussion session on granular materials was held again.

All the participants came up with a set of plans and explained their own plans. The plans most people put forward were meaningless, and they could easily find a lot of problems.

Several of them have some value, and they were all discussed at the meeting.

Wang Hao listened continuously for more than an hour, but found that he hadn't heard anything novel at all. He wondered whether to let Xia Guobin participate in the meeting?

Xia Guobin is an expert in nano-micro materials, so he may be able to make good suggestions.

"Professor Xia can also..."

"Or, wait for other nano-micro material experts to come over? The application hasn't been filed yet, and I don't know when..."

"Or, talk to someone else?"

When Wang Hao was thinking, it was time for the next researcher to give a report. The one who stood up was a very young researcher, only 28 years old.

His name is Ying Zhanming, and he joined the research team with materials expert Zhou Hui.

Ying Zhanming is an outstanding doctoral graduate of the National Defense University majoring in materials. He joined the research team with Zhou Hui, and was also favored by his superiors for key training.

He is young, needless to say about his qualifications.

There is basically no right to speak in the meeting.

Now it was time for everyone to make reports in turn, and it was Ying Zhanming who was sitting in the corner. It was the first time he spoke in a meeting, and he was obviously a little nervous.

He looked up at Wang Hao, then immediately lowered his head.

Then I seriously talked about my plan, "I think it is possible to arrange the FCW-031 particles and use metal superconducting materials with low melting point, high critical temperature, high current carrying capacity, and no anti-gravity behavior. Gap filling."

"The melting point of FCW-031 is around 900 degrees Celsius, which is relatively high. I have checked CW009, CW027 and other materials, and the melting point is basically 600 to 700 degrees Celsius."

"The physical properties of the first-order iron element raise the melting point value of its constituent compounds."

"Using the temperature difference of the melting point, you can fill it with materials that meet the requirements. As long as the temperature is effectively controlled, there must be no technical difficulty in manufacturing."

"The filling material doesn't have to have anti-gravity properties, it just needs to have a high critical temperature and good electrical conductivity."

"In this way, the current load can be increased, and theoretically, it will not affect the antigravity induced by the FCW-031 granular material..."

When Ying Zhanming gave the report at the beginning, few people paid attention to it at all. They felt that it was difficult for a young materials researcher to come up with any feasible solutions.

But halfway through the speech, everyone became serious. They found that there was nothing wrong with what Ying Zhanming said, and they knew it was a feasible solution after listening to it.

But why hasn't anyone else thought of it?

Many people frowned.

Ying Zhanming said that the solution is not complicated, that is, after the particles are arranged, they are then filled and fixed with a qualified superconducting material.

This scheme is so simple that you can think of it with your brain.

The key is……

None of them thought of it!

When carefully recalling their own thinking process, many people know the reason-they are affected by the inherent experimental framework.

Antigravity excitation experiments have been using the same material.

Even when thinking of the combination of two materials, subconsciously feel that it should be "two materials with anti-gravity properties", but the effect of two materials with anti-gravity properties is not one plus one for anti-gravity excitation , the larger one may be one minus one.

Therefore, they did not think in the direction of 'filling with other materials' at all.

The same goes for Wang Hao.

He thought of the situation of "non-single metal compound materials", and he just thought that he could study alloy superconducting materials instead of putting two superconducting materials together.

It should now be shown that the proposed solution is to fill the gaps in the granular material with a material that does not have anti-gravity properties.

In this way, the filling material can fix the particles and form a complete conductor material together. At the same time, because it does not have anti-gravity characteristics, it will not affect the effect of stimulating anti-gravity.

At the same time, a high critical temperature means that the current carrying capacity is increased, which will only promote the activation of the anti-gravity effect.

"very good!"

After Ying Zhanming finished speaking, Wang Hao applauded first.

Others followed suit.

Ying Zhanming blushed with excitement when he heard the applause. He finally had the courage to look at Wang Hao, and looked at the others with excitement.

Zhou Hui nodded towards him.

The person next to Zhou Hui couldn't help asking, "Professor Zhou, is this young man your student?"

"yes."

Zhou Hui said proudly, "Zhan Ming is my best student, so when I joined the group, I recommended him together."

The person on the other side also sighed, "Professor Zhou, you are such an amazing student, you are still so young, and you have a bright future!"

"It's really green out of blue!"

"The waves behind the Yangtze River drive the waves ahead..."

Zhou Hui suddenly had a lot of face.

Although he has not contributed much since he joined the research group, his students have helped the group solve big problems.

This credit can also be counted as him, right?

...

End of the meeting.

Ying Zhanming immediately became the focus.

His plan doesn't sound complicated, but to put it bluntly, it doesn't have much technical content, and it's far inferior to the plans put forward by some senior material experts.

However, the most important thing is to be effective!

His plan was unanimously approved by the experimental group.

Wang Hao also affirmed Ying Zhanming's plan, directly explaining that it will be adopted, and then manufacture the corresponding materials according to the plan.

It's amazing.

Wang Hao took the initiative to shake hands with Ying Zhanming, praised him for not being restricted by the experimental framework, encouraged him to continue to work hard for the experimental group, promised that after the phased research was over, he would be given a higher bonus, and his contribution would be written into reports and the like.

Then, Wang Hao thought about the personnel of the research team.

Among the core members of the research team, scholars in materials, nuclear magnetic fields, etc. are all directly sent by the scientific research department.

Zhou Hui is like this.

Ying Zhanming came here only after Zhou Hui applied for it. He is the only researcher under the age of forty among the "straight school" scholars.

The scholars sent by the scientific research department are already well-known, and they can be said to be top scholars in their respective fields.

At the same time, they are not young.

Zhou Hui is already fifty-seven years old, and he can consider retirement if he is older. As a result, he can only be regarded as a middle-level scholar among the "straight scholars".

Cutting-edge scientific research requires more young scholars.

Young scholars tend to have more creative thinking, while older scholars are easily restricted by rules and regulations, and it is difficult to have any high-value ideas.

"Should I replace a few people?"

"It's enough to keep two older ones. The others return to their original positions and ask the scientific research department to send a few more young scholars over. It doesn't matter if they have low qualifications, as long as they have solid knowledge..."

"Like Zhou Hui, Yang Chengzao, Li Shumin..."

"These few..."

Wang Hao felt a little helpless when he thought about it.

Zhou Hui, Yang Chengzao and other senior professors really attached great importance to project research work, and they all produced more than ten pages of reports on the research of granular materials.

Each report involves high-end material manufacturing technology.

Some of the content was even completely out of the outline, making it difficult for the participants to understand, but no 'correct' ideas were fed back.

In other words, their work doesn't make sense at all.

"There should also be a competition mechanism within the experimental group. It is only natural for those who are capable to come in and those who do not contribute to go out."

Wang Hao thought about it, and felt that he should discuss it with He Yi, Deng Huanshan and others.

This aspect really needs to be considered.

The tens of billions of material projects are not for some people to come in and use their qualifications. If it is difficult to make contributions to research, there is no need to stay.

...

Now in the research of granular materials, it is waiting for the cooperative factories to manufacture according to the plan.

After the material is manufactured, the anti-gravity behavior experiment can be carried out to see if it can affect the anti-gravity effect.

Of course, Wang Hao already had the answer in advance.

But no matter what, the real experimental data is convincing, and he doesn't know how big the specific effect is.

While waiting, he made another trip to the annihilation force field experiment base.

The annihilation force field experiment base delivered a set of spiral magnetic field equipment, which was specially made by high-energy physics for the new strong annihilation force field generating device.

Previous research on the new technology of strong annihilation force field has raised the strength of the force field to about 8.1, which is already close to the limit value.

If the helical magnetic field is used to squeeze again, the intensity of the annihilation force field will definitely be even higher.

"However, it won't be much higher."

"DC strong annihilation force field technology, there is no anti-gravity field inside, and the use of spiral magnetic field extrusion can only obtain a thin layer of anti-gravity field on the outer layer, and the impact effect is not as good as that of DC anti-gravity to create a strong annihilation force field thin layer..."

Wang Hao said to Tang Jianjun.

Tang Jianjun has been working at the Annihilation Force Field Experimental Base. He is the top nuclear magnetic expert in China, and he is mainly in charge of magnetic field equipment.

He asked, "It used to be 8.1, how many can there be now?"

"I guess..."

Wang Hao hesitated for a moment, and said a number, "8.3, 8.4, the growth rate is almost that big."

Tang Jianjun was immediately surprised.

Xiang Qiansheng was also a little surprised, "The improvement is so little?" He was also looking forward to the spiral magnetic field device, and felt that the strength should be increased at least a little.

result……

0.2, 0.3?

Wang Hao nodded seriously, "It should be about the same." He added, "However, my estimate may not be accurate. I still need to experiment."

Tang Jianjun thinks it makes sense, "No one can explain the strong annihilation force field technology, and maybe the magnetic field extrusion effect is very good."

Xiang Qiansheng's expression was a little numb. The way he looked at Tang Jianjun almost wrote the word "innocent".

This old man is so naive!

He actually believed what Wang Hao said 'estimates may not be accurate'?

In the past few years, countless experiments have proved that as long as Wang Hao says the estimated number, the experimental results will be basically the same.

What is "estimates may not be accurate", just listen to the left ear and the right ear will pop.

That's humility!

If it's true...hehe.

...

three days later.

The annihilation force field experiment officially started.

The peripheral spiral magnetic field equipment was activated in advance, and after the strong annihilation force field device was activated, a strong annihilation force field was quickly stimulated and created.

After the device has been in operation for a period of time, the strength of the magnetization reaction of several metal materials placed inside is calculated to be '8.36'.

This result is consistent with Wang Hao's prediction.

Tang Jianjun couldn't help sighing, "Academician Wang's guess is really accurate, the value of the field strength is between 8.3 and 8.4."

"Guess?"

Xiang Gansheng shook his head and sincerely reminded, "Academician Tang, when you work for a while, you won't say that again."

"..."

After the experiment was over, Wang Hao left the annihilation force field experiment base.

After the strength of the annihilation force field has increased, a series of routine experiments will be done in the follow-up, and other people can complete it, and there is no need for him to participate.

But Wang Hao failed to go back.

When the car was driving halfway, he received a message from Wang Hui telling him to go to the material testing center immediately.

In this case, there is usually a big discovery.

Wang Hao returned to the experimental base.

He had just walked to the entrance of the material testing center when he was pulled into the laboratory by Wang Hui and Zhou Qing who were waiting there.

Wang Hui closed the door and took a deep breath, and said impatiently, "Academician Wang, we may have discovered a new upgrade element."

"And you can never imagine what it is!"

"What is it?"

"carbon--!"