Chapter 438 Thirty years in Hedong, thirty years in Hexi? A huge breakthrough in granular materials!
The information released by Annihilation Technologies caused international shock.
It turns out that the production of first-order iron is in kilograms because the content of first-order iron in magnetized iron materials is low, and there is a more complicated extraction process. The output of first-order iron is naturally very low, so it can only be supplied to various industries.
Used by scientific research institutions.
Now, the 'extraction' process is skipped and high-purity first-order iron is produced directly, and the output is calculated in 'tons'.
The information released by Annihilation Technology Company is very clear. They have determined that they produce more than 100 tons of high-purity first-order iron every day. They also stated that "the automated process has not been completed yet, and there is still a lot of room for improvement."
In other words, the output of first-order iron will only be higher in the future, reaching "thousand tons", and "ten thousand tons" can also be expected.
This also means that first-order iron can be used on a large scale.
American was the biggest shocker.
Previously, they started a new round of confrontation with the flower growers, and even led the conduct of exercises to demonstrate their military power. They wanted to form a tentative deterrent. The trigger was that Annihilation Technology Company restricted the sale of first-order iron to external parties, and no relevant scientific research institutions.
You can't do research if you have cast iron.
Annihilation Technology's public explanation is that it needs to upgrade the equipment, but their analysis believes that it is aimed at Amrican.
result……
Is this really an upgrade?
This is no longer just an upgrade, but the use of an unknown high-end technology to greatly increase the production of first-order iron.
"It turns out it was really upgraded? And it also used brand-new technology."
"That kind of technology must be very high-end. We can confirm that the first-order iron content in the magnetized iron material is only more than 2%. How did they create materials with a purity of more than 90%?"
"What kind of technology is that!"
"In principle, a strong annihilation force field can only create magnetized materials. First-order iron is evenly distributed. Even after melting, it is impossible to separate..."
"anyway……"
"Since Annihilation Technology Company has suspended the sale of first-order iron, it is because it has new technology to prepare for mass production. Why did we do that some time ago?"
"Deterrence is still necessary."
"But we seem to be the intimidated party..."
"..."
When thinking about the new stealth technology of Kongjian-2, many people were silent in unison. Their purpose was indeed to deter, but as a result of the exercise, few people cared at all.
What everyone is talking about is Airship-2.
The drill can only be carried out hastily and ended hastily, and there are only a few symbolic performances. It is really depressing to think about it.
The mass production of first-order iron is good news for many American institutions. They need first-order iron for research. Mass production means that the selling price will be greatly reduced. Spending the same funds can obtain
Large quantities of materials are studied.
Many people care about the results, not the process, especially for first-order iron.
Because only Annihilation Technology Company can produce first-order iron, if other organizations want to learn about new technologies, the most basic thing is to create an annihilation force field of sufficient strength. Otherwise, there is no point in discussing it.
Many people are paying attention to Gamow Shapley again.
When Gamov-Shapley heard the news, he almost jumped up from his seat with excitement. He had already lost confidence in the Groom Lake project, but he just insisted on taking on the position of project leader.
Now, there is hope again!
Annihilation Technology produces first-order iron on a large scale and will continue to sell it internationally normally. They can buy large quantities of first-order iron at low prices, and various research can continue.
soon.
Gamov-Shapley got another piece of good news.
That was a report from the European media. It was about a meeting between Wang Hao and Novotny. While they were discussing annihilation field technology, they also talked about the Groom Lake project.
"Professor Wang Hao believes that the Groom Lake Project is very valuable."
"He expressed his affirmation of the research plan and once again confirmed the correctness of the development of annihilation force field technology for upgraded materials..."
The news reports said a lot, all of which were analyzed based on one sentence of Wang Hao's comments. It can be simply understood as "Wang Hao confirmed the Groom Lake plan."
This is good news for Gamov-Shapley.
Although Wang Hao's team, the Antigravity Behavior Research Center, is the catch-up target and competitor of the Groom Lake Project, everyone must admit that Wang Hao is the most authoritative figure in annihilation force field technology. Scholars in any other related fields
, are not qualified to be placed with him.
Wang Hao's affirmation gave Gamov Shapley more support.
Gamov Shapley also became more confident, "Just wait. As long as we buy a large amount of first-order iron, the research will be smooth..."
"There will definitely be results!"
"It will definitely create a high-strength annihilation field!"
Now Gamov-Shapley's idea is no longer to catch up with the antigravity research center. He hopes that the research will be fruitful in order to prove it to those who are not optimistic about the plan.
This is a change of mentality.
In the past few months, Gamov-Shapley has experienced a "low point in his life". Even many participants in the plan began to be unfavorable about the research direction.
When attending some meetings, he could also hear all kinds of cynicism.
Gamow-Shapley was annoyed by this.
At this moment, he was in a very happy mood, full of expectations for the next step of research, and even wanted to yell, "Thirty years to the east of the river, thirty years to the west of the river..."
"Just wait and see!"
…
The international community is more concerned about the impact of mass production of first-order iron, while many people in China are discussing whether new technologies can be used to mass-produce first-order lithium or first-order carbon.
"Since we can produce first-order iron in large quantities, we can apply it to produce first-order lithium or first-order carbon."
"It's very possible."
"If first-order lithium or first-order carbon can also be manufactured in large quantities, upgraded materials will be more widely used..."
That is of course impossible.
This chapter is not over yet, please click on the next page to continue reading! Iron has its own uniqueness. If it were replaced by first-order lithium or first-order carbon, the same phenomenon would not necessarily occur with the same technology.
The problem with first-order lithium is that the element properties are too active. To produce magnetized lithium materials, compounds can only be used, not elemental lithium. Even related technologies can be used, and production must be carried out in a vacuum, which is too complicated.
.
For first-order carbon, there are two problems, one is the activity of the element, and the other is the melting point.
There are many carbon elements in nature, but if the carbon element is heated to a certain extent, it will definitely react with other elements.
For example, burning.
Even with the same technology, the production of first-order carbon must be done in a vacuum.
In addition, another disadvantage of carbon element that hinders production is that the melting point of elemental carbon is too high, so high that it is difficult to produce it at such a high temperature for normal production.
In short, the new technology can only be used to manufacture first-order pure iron materials for the time being.
The large-scale production of first-order iron will make huge progress in alloy material technology, and materials are the basis of most technologies.
Following the trends of Annihilation Technology Company, the science and technology department simultaneously started new research preparations, that is, controllable nuclear fusion technology.
This has been discussed by the science and technology department for a long time.
F-ray generating equipment is a natural container for nuclear fusion reactions. With sufficient foundation, it is natural to study controllable nuclear fusion technology.
This technology is cutting-edge and strategic.
Flower growers have always been a big importer of energy. Oil, natural gas, and even coal for power generation need to be imported in large quantities.
If we can have a high-end energy technology, even if it is only used to produce electricity, it can also change the passive energy dependence environment, which is very meaningful strategically.
In addition, controllable nuclear fusion is a kind of clean energy and represents the future energy technology of mankind. There are many benefits to developing such technology.
Of course, research on controllable nuclear fusion is also not easy.
Even until now, the science and technology department has only decided to "accumulate theoretical and technical reserves." After sufficient theoretical and technical reserves are available, the demonstration of controllable nuclear fusion will be officially launched. The next step is to invest a lot of manpower and material resources in research.
This is only the first stage.
The first phase of the work was confidential, and only top domestic scholars had the opportunity to participate. A team of eleven academicians and dozens of professors went to the f-ray experimental base together.
F-rays are an absolutely confidential technology.
The F-ray experimental base does not list the name of 'F-ray', and some equipment involving high confidentiality is prohibited from visiting.
The goal of the scholar group's inspection was the 'controllable nuclear fission reactor'.
Nuclear fission reactors are of course controllable, but the technical basis of a 'controllable nuclear fission reactor' is different. The control method is to use a strong annihilation force field and an internal anti-gravity field to create an environment that limits high-intensity reactions, plus other auxiliary
Equipment can firmly limit the reaction to a small area, while reducing the reaction speed and the amount of heat released to the outside world.
The scholar group is very interested in the 'controllable nuclear fission reactor'.
After everyone saw the center's sophisticated equipment and learned about the related technologies, they couldn't help but sigh, "This is the container that controls nuclear fusion!"
"No wonder we were asked to come and take a look. With this container and the tokamak ring device, we have complete technology for nuclear fusion control."
"What is the maximum controllable energy intensity?"
"Can power input be achieved?"
Many scholars asked about the parameters of the equipment. After knowing the detailed information, they also discussed in a targeted manner, "These parameters are still far behind in controlling nuclear fusion..."
"Even if nuclear fusion is controlled, the minimum energy intensity of the explosion is more than twenty times!"
"The internal anti-gravity field reduces particle activity, and the outer annihilation force field annihilates energy, but there are limits, and better insulation materials must be used."
"The magnetic field constraint of this device is not good. However, nuclear fission does not need to be controlled. If it is nuclear fusion, magnetic field confinement is very important."
"If it is used as a container for nuclear fusion, a reaction channel should be designed inside..."
"Exterior materials are also a big problem..."
"..."
There are of course many problems.
The research on controllable nuclear fusion is a big project, and it is still in the stage of technology accumulation. The purpose of the scholar group is to understand the equipment and then find targeted directions for research.
When each problem has a solution and you really invest in research, the possibility of success will be greatly increased.
The scholar group asked a lot of questions, and they all felt that they had gained a lot.
They had discussed it before coming, but they didn't expect that the equipment would be so perfect, and they could restrain the nuclear reactor with only two layers of force fields, which showed that the method of annihilation force field restraint was a feasible solution.
that's enough.
Some people also talked about Wang Hao. They knew very well that the annihilation field constraint technology must be directly related to Wang Hao's research.
"Where has Academician Wang Hao gone?"
"Why isn't he here?"
Tang Jianjun said, "Academician Wang Hao is also doing relevant research. He hopes to solve the field force problem, that is, to create a stronger anti-gravity field and a strong annihilation force field."
"At that time, the protection will be greatly improved..."
…
Wang Hao originally planned to go to the f-ray experimental base and discuss the research direction of controlled nuclear fusion technology with experts from the scholar group.
However, a piece of news made him change his mind.
He went to the Aviation Materials Institute.
The Aerospace Materials Institute and Toko Precision are jointly responsible for the experiment of manufacturing micron-level granular materials. Their research has made great progress, and granular materials were separated during the experiment.
The main persons in charge of this research are Cao Dongming, Qu Gui and Yang Yunhe.
Cao Dongming and Qu Gui represent the Institute of Aeronautical Materials, and the main experiments are also conducted in the Institute of Aeronautical Materials.
Yang Yunhe represents Donggong Precision, which is responsible for material cutting and processing, and provides some high-end equipment required for experiments.
At the same time, Togon Precision’s team also needs to research and manufacture containers and mixers.
The agitator is just a component in the manufacturing process, but just like the fan blades of an aerospace engine, the agitator is one of the components that plays the greatest role in the manufacturing process.
The successful production of granular materials now is inseparable from Yang Yunhe's research on agitators. His team has manufactured several types of agitators. One of the designs has played a role in successfully manufacturing
Granular materials are out.
When he successfully produced granular materials, Yang Yunhe was very excited and proud. He indeed has the capital to be excited and proud.
The current manufacturing process is amazing just by talking about it.
The morphological structure of granular materials is very complex, and the manufacturing process is just to melt the material and mix it with another superconducting material solution, then use a stirrer to quickly rotate in the container, stir thoroughly, and then cool and solidify to obtain the properties.
Materials with complex properties.
"This is Nuwa creating humans..."
Yang Yunhe sighed and said, "To be honest, before the research started, I felt there was no hope. Even though Academician Wang is very confident, it doesn't sound like a technology that can be completed."
Cao Dongming and Qu Gui nodded together, they also felt the same.
This technology sounds too high-end, so high-end that it doesn’t feel real, but in the end, they actually made it.
"Although we only produced some small particles, most of which were not formed, we achieved accumulation from 0 to 1..."
Yang Yunhe raised the corners of his mouth as he spoke, "Even Academician Wang Hao can't say anything, right?"
“The most important thing is the design of this mixer.”
"I have argued with others many times, and we all feel that the design of three-layer long fan blades is most likely to produce granular materials. I didn't expect it to be..."