Chapter 390: Mass production of first-order iron! Wang Hao: You just signed a big order, is it not good?
In the office.
Bill Bryan and Juraj Novotny were silent together.
After carefully studying "Annihilation Field and Magnetization Reaction", they felt like funny clowns when they thought about the issue of "technological catch-up" that they had been talking about for half a month.
No!
Everyone in the organization is the same.
The International Annihilation Theory Organization was established to study annihilation physics, and its first and only competitor is the Antigravity Behavior Research Center.
In fact, scholars led by Novotny and Brian are more inclined to cooperate with the Antigravity Research Center so that they can participate in the most top-notch research. It is just cutting-edge scientific research with great influence, not purely academic.
The political influence was also great.
Unless you can convince most of the people in the organization and the institutions that invest funds, if you want to participate in the research, the only option for now is the International Annihilation Theory Organization.
certainly.
Even if they prefer to cooperate with the Antigravity Behavior Research Center, Novotny, Bryan and others also hope that the technology mastered by the organization can catch up.
They have been talking about this for the past half month, and are already preparing to demonstrate the manufacture of a second device, and are full of expectations.
Scientific research pursues innovation.
Under the current situation, their technology is not as good as that of their opponents, so most of them are copying the other party's experiments, and some are verifying the results.
Reproduction and verification are almost meaningless.
I originally thought that by manufacturing the next piece of equipment, I would be able to catch up technologically, and I have been discussing it with great interest.
Now it is found that the gap between the two parties is as large as 'second generation or above'. It is just demonstrated that the next device, that is, the 'next generation', has almost no hope of catching up.
"The strength of the annihilation field is one aspect."
Yuraj Novotny sighed and said, "Now there is another problem. Some of their research can't figure out how to do it."
"How did you measure this annihilation force field?"
"The strong annihilation force field is just a thin layer and cannot be used for conventional mechanical experiments. How did such accurate data come from?"
Bill Bryan said depressedly, "It's a pity that they didn't disclose the details of the experiment."
"It can't be made public."
Yuray Novotny shook his head and said, "If it were us, we wouldn't make it public either."
Bill Brian pursed his lips vigorously, shook his head and said, "You are right." When the two of them were sighing, the outside was already bustling.
Many people have already come to the office building and have read the new issue of "Annihilation Physics and Theory." What Brian and Novotny can see, others can naturally see.
They all kept discussing. Soon.
Empoli-Cubo also arrived, and he also learned the news.
While feeling surprised and depressed, he immediately contacted various technical groups to convene a meeting, and even went to Novotny to shout, "Yurai, Bill, get ready for the meeting. We want to discuss the technical issues of annihilation force field measurement."
Empoli-Cubo also knows the point.
The strength of the annihilation field is one aspect, and it only represents their technical gap. The measurement of the strength of the annihilation field is a big problem.
What they create is the same annihilation force field, which is just a thin layer in the outer ring of the anti-gravity field.
Why can Wang Hao's team measure the strength of the force field through experiments? This is the key point.
In the face of this problem, the technical gap like a chasm can be put aside because it is something that has to be accepted.
Half an hour later, the organization's internal meeting began.
They continued to analyze and discuss the issue of 'Annihilation Force Field Strength Measurement'.
Several top scholars expressed their opinions and actually discussed a feasible plan. "The annihilation force field still has thickness, but it will definitely not be able to support conventional mechanical experiments."
"We can analyze the mechanical effects within the field by releasing a pure proton beam, letting it penetrate the strong annihilation force field, and studying the motion changes of the proton beam."
"It will involve the issue of energy annihilation, as well as effects such as heat and magnetization. However, excluding these effects and through a lot of calculations, interference can still be eliminated and the field strength can be evaluated..."
This method is indeed feasible.
After someone summed it up, there were a lot of objections immediately, "Proton beam? The deviation of this measurement must be huge!"
"In order to measure the strength of the annihilation force field, do we still need to find a high-energy physics team to cooperate?"
"How much money does this cost? One billion? Two billion?" "It's simply too complicated!"
"I don't believe that Wang Hao's team did this. Look at the large amount of force field strength data, how is it possible?"
There was chaos in the conference room.
Empoli-Cubo rubbed his forehead vigorously. He was not a top scholar in the physics world. He had no right to speak at technical meetings.
Looking at the chaotic scene, he was thinking about how to explain.
Last time Druk-Bent asked about the 'technological gap', he clearly said that as long as the next generation of equipment is manufactured, we can catch up.
Now we can't even discuss the method for measuring the strength of the annihilation force field, and we can't come up with a result to determine the technical level which is 'two generations' behind...
How to chase?...
The impact of the publication of "Annihilation Force Field and Magnetization Reaction" is indeed very great.
There has never been a clear concept about the strength of the annihilation force field before, and scholars' understanding is also based on the magnetization reaction strength of iron.
Now standards have emerged.
The experimental group of the Antigravity Behavior Research Center expresses the strength of the annihilation force field by the rate at which the weight of an object increases.
This is the standard for anti-gravity fields. When used in strong annihilation fields, it will naturally be recognized by the academic community.
Once there are clear standards for field strength, scholars will have a clear concept in mind when interpreting a series of research results on annihilation force fields.
For example, the electron transition of iron occurs at about 6.6 times (conventional annihilation force).
For example, the energy annihilation effect occurs near 2.7 times.
"According to the research report, the energy annihilation effect has occurred from 2.7 times to 6.6 times, and can be annihilated by more than 98%. The improvement speed is very fast."
"It can be inferred from this that the electron transition effect of iron will also increase rapidly as the strength of the annihilation field increases."
"Judging from the numerical value, if the field force intensity is higher, for example, it reaches 7 times, the probability of iron undergoing electronic transition will increase a lot..."
This is the conclusion reached by many top scholars, and how much the specific magnification can be increased depends on the data of raw material research.
Locke Lisman Steel Company, Central Laboratory.
The research team led by Laurel-Chemutai is studying the first-order iron raw materials. He has carefully measured the content of first-order iron in the raw materials and obtained other important data.
Before, this data didn't mean much. Now it's different.
Once we have the definition of the strength of the annihilation force field, coupled with the public ferromagnetization reaction data, and the first-order electronic transition data, we can compare and analyze a lot of things with the data.
"If there are no problems with the public results, it can be estimated that when the annihilation field intensity reaches 7 times, the content of first-order iron in the raw materials produced may exceed 1%."
"Up to ten times, the content may exceed 20%."
"So, being able to create an annihilation field that is seven times more powerful means that we can produce large quantities of first-order iron materials."
Laurel-Chemutai said while holding the report.
Although it only explains some estimated data, the content contains huge value.
Opposite him was Chrissy Brodin, the CEO of Locke Lisman Steel Company. Brodin asked seriously, "Are the data accurate?"
"High probability, more than 80%
"Roller-Chemutai said, "Even if the data is inaccurate, there is no doubt that as the strength of the annihilation field increases, first-order iron will be easier to manufacture. Whether the strength is 7 or 8, there is not much difference.
Isn’t it?」
"you're right."
Brodin nodded thoughtfully and said, "We must prepare in advance to deal with it. It is best to master the manufacturing technology of first-order iron. Of course, it is unlikely."
"What we must do is to optimize the extraction technology of first-order iron in order to take the initiative in future competition."
Brodin determined the direction easily.
First-order iron is a brand-new material, and many properties still need to be studied, but just looking at its physical properties, we know that it can definitely be used in many fields.
Another company that has acquired primary iron raw materials is the LoMittal Group.
A meeting is also being held at the group headquarters. Many material experts have gathered together to discuss their opinions. "First-order iron has great potential. Although it is rare now, it may not be so in the future."
"I believe that in one or two years, flower growers will be able to master the technology of mass production."
"There are also opportunities for research by the International Annihilation Theory Organization. Can we try to cooperate with them, or simply conduct research ourselves?"
"You can't basically master the manufacturing technology, but you should also understand its characteristics, research extraction technology, and reduce the cost of extraction."
"Perhaps we can consider spending another sum of money to purchase raw materials?"
...
For purely academic research, the funding in units of ‘100 million US dollars’ is very huge.
But for international very large enterprises, R&D expenditures in the amount of "100 million US dollars" are nothing at all. As long as they master high-end technology, they can easily double the investment and earn back.
After understanding the annihilation force field and the manufacturing of first-order iron materials, many large-scale companies in the steel and material fields saw the potential of first-order iron materials and determined that first-order iron materials would become popular in the future.
Be prepared to invest.
Investment is divided into two directions.
One direction is to master manufacturing technology, but it is too difficult to enter the research of strong annihilation force fields.
In this regard, we can only ask the International Annihilation Theory Organization or contact the relevant responsible officials to see if we can conduct cooperative research.
Another direction is extraction research.
If we can master high-end extraction technology in advance and greatly reduce the cost of extracting first-order iron, we will naturally have an advantage in future competition.
There are also some companies that hope to conduct research on first-order iron alloys.
First-order iron and conventional iron have stronger physical properties, and the alloys produced will definitely have better physical properties, and may be used in some high-end material fields in the future.
For example, aviation, aerospace. For example, military. etc.
The ideas of these companies are good, but it is still very difficult to obtain some iron materials. In addition, the selling price of first-order iron is too expensive.
One gram, one hundred million US dollars! Ridiculously expensive!
Most companies can only give up and choose to wait and see what happens next.
.·.·..
The situation domestically is also very similar.
Some large companies are interested in first-order iron and are also interested in the annihilation force field research of the Antigravity Behavior Research Center.
For the latter, what they want to know is the 'speed of technological improvement'.
There seems to be a tacit understanding internationally that the strong annihilation force field created by the Antigravity Behavior Research Center has a strength magnification of around 6.6.
When can it be increased to 7 times?
If the field strength reaches 7 times, will it be possible to produce large quantities of first-order iron?
External public opinion did not interfere with the annihilation force field experimental team.
The new research results are just regular releases of 'basic results', and they are still continuing to research and improve strong annihilation force field technology.
Wang Hao also focused on research and development and didn't care about external affairs at all. He just stayed in the annihilation field experiment.
Team up and discuss material layout issues with others.
Keep improving, keep improving. Soon.
Another month and a half has passed.
The central experimental room of the Annihilation Force Field Experimental Group is busy working on something.
Many people were involved in the finishing work of the experiment. The magnetized materials produced in the experiment were also sent to the Materials Testing Center for testing by Professor Wang Hui’s team.
Wang Hao felt exhausted after being busy for more than ten hours. After the experiment, he went back to his room to rest.
At nine o'clock the next morning, Wang Hao appeared in the conference room on time. Everyone else was already there.
This chapter is not finished yet, please click on the next page to continue reading the exciting content! Zhu Huacai stood up impatiently and said excitedly, "In yesterday's experiment, our group measured the strength of the annihilation force field to be..."
"7.83!"
Some people have known the data for a long time, and some people have not, but everyone's reaction is the same, they are all very excited and excited.
7.83.
This data is simply incredible, it is already so high that it completely surpasses the intensity of F-rays.
Wang Hao was also a little excited, but the data was still within expectations. He thought about it and said, "7.83, 0.3 more than last time. It seems that the intensity growth rate has indeed slowed down."
"At this growth rate..."
"Nine times, or 10 times, is almost the limit." He estimated the data.
Others were very much looking forward to it after hearing this. They were able to create a 9 times or 10 times stronger annihilation force field. The technology was basically qualitatively different from the original one.
The meeting summarized the experiments.
The next step is to wait for the results from the material testing center.
They used more than twenty single-element materials for magnetization reactions, hoping to discover a second element that undergoes electronic transitions.
Three days later, preliminary results came out.
Wang Hui came to the experimental team to give a report and said, "All metal materials have been tested and there are no special findings."
This means that no upgraded metal elements have been found.
Theoretically speaking, the magnetization reaction of metallic elements is strong, and the probability of electronic transition is greater than that of other elements.
Wang Hui wants to say more than this.
With extreme excitement, he said the next sentence, "In the measurement of pure iron, the content of first-order iron has been greatly improved, reaching 2.36%!"
What is this concept?
If there is a ton of raw materials, 23 kilograms of first-order iron can be extracted. Pure iron is worthless at all. If the first-order iron content exceeds 1%, it means that first-order iron can be mass-produced.
Wang Hao's reaction was a bit unexpected. He frowned and thought, "Only 2.36?"
"yes....."
Wang Hui was stunned and didn't understand, "Isn't it high enough? It can be mass-produced."
"It used to cost hundreds or tens of millions to extract one gram. Now the content is so high, if the cost of raw materials is not included, extraction and separation is no longer a problem at all."
"It's really improved a lot."
Wang Hao nodded in agreement with Wang Hui's statement, and then said, "Professor Wang, you have worked hard too. This news is kept secret for the time being. Don't tell anyone else, not even the experimental team."
"Um."
Wang Hui nodded seriously.
After Wang Hui left the office, Wang Hao thought about the value of '2.36' and frowned. The content of first-order iron was much lower than expected.
He also recognizes outside judgments.
When the intensity of the annihilation force field continues to increase, the rate of electronic transition in first-order iron will be greatly increased, and the critical line for electronic transition in first-order iron is about 6.6 times.
The field strength produced now is 7.83, which has been greatly improved, but the first-order iron content is only 2.36!
This data is too low!
In addition, the experiment has still not found other metal elements that undergo electronic transitions, which is also something that cannot be understood, and will also lead to subsequent
There is no basis for theoretical research.
Theory is what Wang Hao cares about most.
While Wang Hao was thinking, he heard conversations outside, and then there was a knock on the office door.
"Please come in!"
Wang Hao raised his head and shouted, and saw Teacher Xu's secretary Zhang Lin walking in.
Zhang Lin came on behalf of Teacher Xu, who is also from the science and technology department. As soon as he came in, he couldn't wait to tell the news, "Recently, we signed several orders and sold the raw materials of 27 grams of first-order iron.
Billions of dollars in revenue!"
"It seems that large international companies have begun to rush to research the extraction technology of first-order iron."
"It's really forward-looking..."
Zhang Lin's last comment was a bit ironic, probably because he felt that there is still a long way to go before the popularity of first-order iron.
He then asked, "Academician Wang, recently Wuhan Iron and Steel, King Kong, and the Aerospace Materials Institute all want to know about the issue of first-order iron, and they also want to get some raw materials."
"What Teacher Xu means is that domestic companies should sell cheaper and focus on supply. After all, it is related to future competition."
"By the way, I see that you are all busy doing experiments recently. Is there any gap in the production of first-order iron raw materials?"
Wang Hao took a deep breath after hearing this.
He did not answer directly, but thought about it carefully and asked, "You have just completed a few large orders in grams. If we provide first-order iron in large quantities at this time, will it be a problem?"
not too good?"
"....What's the meaning?"
"We already have the technology to mass-produce primary iron."