Chapter 428 Negotiations break down, new research, that is an invisible shield!
Bailton came with a work goal.
He has two direct goals. One is related to first-order lithium. He hopes that flower growers will relax their policies so that Annihilation Technology Company can sell lithium magnetized materials.
The influence of lithium element magnetized materials is too great.
Companies in other countries cannot buy magnetized lithium materials, so the performance of the lithium batteries they manufacture naturally does not improve.
The flower grower's lithium battery company relies on magnetized lithium materials to create high-performance lithium batteries. They have almost monopolized the international lithium battery market.
In the high-end lithium battery industry, flower grower companies are close to achieving a monopoly.
If the issue of magnetized lithium materials can be negotiated, lithium battery companies outside the flower garden can re-enter the high-end lithium battery market.
The second is the first-order iron material.
Gamow-Shapley realizes the embarrassment of limited materials. Institutions and experimental groups related to the Groom Lake Project are in great need of first-order iron, otherwise many researches will have to be suspended.
At that time, the Groom Lake Project can be declared bankrupt in advance.
Other experimental groups and scientific research institutions related to first-order iron naturally have similar feelings. They all hope to get more first-order iron.
However, the price of first-order iron is too expensive.
Even if the selling price per kilogram has reached millions of dollars, or even hundreds of thousands of dollars, it is simply unacceptable compared to the huge application market of iron.
First-order iron is expensive for two reasons.
One is that the first-order iron content of pure ferromagnetic materials is low. It also requires a lot of energy to obtain the magnetized materials and then extract them.
Furthermore, Annihilation Technology's first-order ferromagnetic materials are priced too high.
"If Annihilation Technology Company is willing to transfer profits from magnetized materials, the price of first-order iron can be reduced by at least ten times!"
This is the judgment made by American.
Of course, Bailton does not expect Annihilation Technology to give up all of its profits, but giving up half of the profits from magnetized materials is enough to more than double the price of first-order iron.
The bargaining chip he can offer is the relaxation of the no-sale list of the Watson Agreement.
During the negotiations, Bailton said bluntly, "The ban list can be very strict, but it can also be very loose."
"It's time to revise that list."
"We can talk about high-tech equipment and materials. You must be hoping to buy high-end equipment in some fields, right?"
This is technological power.
High-tech equipment is a seller's market, and even whether to sell products can be used for transactions.
Bailton's tone and expression made Teacher Du feel uncomfortable, but relaxing the ban is indeed very attractive. High-tech equipment is indeed needed in some important domestic fields.
For example, precision manufacturing.
If high-precision lathes and other equipment can be purchased, the precision manufacturing technology of some manufacturing companies will definitely be greatly improved.
For example, the chip processing industry.
If the most advanced photolithography machines can be purchased, domestic chip companies can also produce high-precision chips for high-end electronic products and use them for technology research and development. Maybe it won’t be too long before the country can master the relevant technologies.
technology.
etc.
After Teacher Du reported the news, a group of experts and scholars discussed it, and they all believed that relevant cooperation could still be discussed.
The superior department has formulated high-end equipment and materials in 13 fields.
Teacher Du took the 13 proposed items and re-negotiated with Bailton. Nine of the 13 items were quickly crossed out, and only a pitiful 4 items were left.
Bailton's reply was, "It's impossible."
"Even if I make a commitment and reach an agreement with you, it is impossible to pass it later. This is not something we can decide."
He also knew that refusal would likely lead to a breakdown in negotiations.
But, there is no way.
He didn't have the relevant authority at all, so it was impossible for him to agree.
Among the 9 items that have been crossed out, some fields have a very large impact. If companies and institutions sell high-tech equipment and materials to flower growers, they are likely to let flower growers master these technologies. The technical level of companies and enterprises in related fields
It will also be greatly improved, thus bringing huge impact.
Eventually, the negotiations broke down.
Bailton went back angry and depressed. He failed to achieve the expected goals of his visit, but Amrican did not give up.
First-order materials are so important.
Their goal is to master the technology to generate strong annihilation force fields, that is, to develop the manufacturing technology of first-order elements, and to master the most advanced technology in the direction of annihilation force fields.
Now that the negotiation method achieved their goals, they began to consider other methods.
For example, technological means.
For example, political means.
For example, extended military deterrence.
Or, other means.
etc.
…
The Air Force's anti-gravity aircraft, that is, the air-ship team, has acquired the technology to use a lateral anti-gravity field to stimulate a strong annihilation force field.
They obtained the technology and quickly put it into manufacturing and experimentation.
At the same time, the military and aviation groups have also paid attention to the research of Shen Huiming's team at the Radar Institute.
At the Antigravity Behavior Research Center, Wang Hao mentioned Shen Huiming's research more than once. The military and aviation groups also knew the importance of the research.
When they really paid attention to the research, they discovered that Shen Huiming was indeed amazing.
In a short period of time, Shen Huiming's team has made several technological breakthroughs, and has even discovered first-order short-frequency waves using first-order iron superconducting materials.
Li Mingyuan went to the radar station immediately.
Shen Huiming was surprised by Li Mingyuan's arrival, but he introduced seriously, "We used the first-order iron superconducting material provided by Academician Wang Hao to stimulate and create first-order short-frequency waves."
"The energy intensity of this first-order short-frequency wave is very high, and it cannot be fully received yet. We are studying reception technology."
"If possible……"
First-order short-frequency waves have just been discovered.
Even if it is just a discovery, it is very remarkable. Shen Huiming was full of confidence when he introduced it.
Li Mingyuan was very surprised when he heard this. He asked, "So, if we go one step further, we can use this technology to achieve simple information communication."
"right."
Shen Huiming nodded affirmatively.
He was a little confused and didn't understand why Li Mingyuan was so excited.
If it is just to implement simple communication, it seems to be meaningless.
The biggest advantage of first-order radio waves is its strong penetrating power and its inability to intercept, absorb, and interfere with it. If you want to reach the level of application, you must at least create a first-order radio wave radar.
In this way, first-order radio waves can be used for detection, or interference communication and command. Judging from the current technology, it will take a long time to develop to that level.
Li Mingyuan did not explain.
Nowadays, there is "strong annihilation field stealth technology". Only first-order radio waves can pass through the strong annihilation field, allowing air-ship series aircraft to communicate with the outside world.
When the 'invisible' state is turned on, it is more important to be able to conduct simple communication.
Li Mingyuan thought about it and immediately promised, "Professor Shen, the group attaches great importance to this research. You can make any requests you have."
“Whether it’s experience, materials, or personnel, whatever can satisfy us will be satisfied!”
"Hopefully we can achieve the expected goal as soon as possible..."
…
Superconducting Materials Research Center.
In a conference room, many experts and scholars gathered together.
There are Yang Yunhe from Donggong Precision, Xia Guobin from NanoVis Laboratory, and more than a dozen experts in other fields.
These include several directions, such as metal materials, superconducting materials, nano-micro materials, precision processing, alloy manufacturing, etc.
There are two most important ones, one is Academician Yang Yunhe of Dongguan Precision Industry, and the other is Academician Wang Jinnan of the Superconducting Laboratory of the Academy of Sciences.
Wang Jinnan is a scholar in the research field of superconducting magnetism. He was a little confused when he was invited to attend the conference because he had no idea what it was about.
"I only know that it is related to metal material manufacturing."
Wang Jinnan said to Yang Yunhe, "But I don't understand why you invited me."
Yang Yunhe said, "I know a little more than you, it should be granular superconducting materials. My laboratory has helped Academician Wang create millimeter-scale granular superconducting materials, which is very interesting."
"Oh? Tell me carefully."
Yang Yunhe spoke in detail.
Xia Guobin and Du Jianshan also came over and listened for a while. Du Jianshan was the technical boss of the Affiliated Research Institute of Invasive Technology and was also invited to attend the meeting.
Yang Yunhe introduced granular superconducting materials.
Wang Jinnan still had confusion on his face, "I still don't know why I was invited. My research direction is magnetism. I can't say that I can use magnetism to make materials, right?"
"Of course it's possible."
Xia Guobin suddenly said, "Academician Wang, you may not know that Academician Wang Hao attaches great importance to the direction of magnetic force. Maybe he has some ideas related to the direction of superconducting magnetic force."
"Right……"
While several people were talking, Wang Hao had already walked in.
He exchanged pleasantries with Yang Yunhe, Wang Jinnan and others, and introduced them to other unfamiliar people. Then he sat down and said seriously, "I want to discuss a new granular material manufacturing technology with everyone.
.”
"So-called granular materials..."
Wang Hao gave a brief introduction to granular materials, and then said, "With current manufacturing technology, the highest accuracy can only reach millimeter level, but actual application requirements are higher."
"I hope to develop a technology for manufacturing micron-sized granular materials..."
The conference room suddenly became quiet.
Even if they are mentally prepared, people who come to the conference still find it incredible when they hear the word "micron-sized granular materials."
Wang Hao introduced the example of granular material. It is a very complex irregular polyhedron. It is difficult to cut out millimeter-level materials with similar complex shapes.
Micron?
Do not make jokes!
Wang Hao continued, "It is of course impossible to produce micron-level granular materials simply by relying on precision technology."
"But, for metal materials, I have an idea..."
"Everyone should know the semi-topological theory. In fact, the complex shapes I gave examples are not randomly drawn, but are related to the semi-topological structure formed inside the conductive state."
“The micro affects the macro.”
"I hope to develop a technology that can quickly separate tiny granular materials under strong electric conditions..."
He spoke carefully.
When they heard Wang Hao talk about his idea, everyone in the conference room became serious. They found that Wang Hao's idea did have some feasibility.
When a conductor is conducting electricity, several tiny semi-topological structures will be formed inside it.
Under the special environment of strong electricity and strong magnetism when molten metal superconducting materials are exposed, it is indeed possible to create extremely tiny particles of special shapes by using certain technologies to achieve microscopic to macroscopic effects.
This is very similar to microsphere separation technology.
But research is definitely not that easy. They only gathered together to discuss feasibility. As for technology...
"It's impossible in a short time!"
"This technology sounds like future technology, but it is not achievable now!"
"I don't know if the theory is feasible. It's too difficult to master the technology!"
Many people think so, but it does not affect their feasibility studies.
Wang Hao invited so many experts and scholars to the meeting to allow everyone to conduct feasibility studies together. They are all cutting-edge people in the professional field, so they can get a lot of correct feedback.
When sufficient foundation is accumulated, tasks can be established for research.
To some extent, research has already begun.
…
Air-to-ship aircraft, research and development base.
The Kongjian-2 aircraft with a diameter of more than 30 meters was transported to the super large assembly room, with many staff busy beside it.
They are installing eighteen magnetic field generating devices on the upper and lower parts of the aircraft respectively.
On the second floor platform.
Teacher Zhou was standing there, and next to him was a middle-aged man wearing work clothes with eyes, it was Xu Hongwei from Shencheng Aircraft Research Institute.
Xu Hongwei is an aircraft designer. He has always hoped to enter the field of anti-gravity aircraft and has also applied for the Kongjian-3 design project.
Because of the emergence of new technologies, Xu Hongwei's application was rejected.
But he got a new job.
Teacher Zhou invited Xu Hongwei to join the air-ship team, so that he can use what he has learned in the air-ship team and learn more about the technologies related to air-ship aircraft.
Now, Xu Hongwei is responsible for the installation of the magnetic field generating device. He has a detailed understanding of the strong annihilation force field technology excited by the transverse antigravity field. Considering the outer structure of Kongjian-2, he has determined ten steps for installing the magnetic field generating device.
Eight positions.
Teacher Zhou asked, "Professor Xu, after installing these devices, can Kongjian-2 be able to turn on the invisible shield?"
Xu Hongwei pursed his lips and said, "If they run separately, of course it can. But Kongjian-2 is a whole, and the magnetic field device will also become a part of it. In the future, the magnetic field device and the internal circuit of Kongjian-2 will have to be combined
The system is connected.”
"Whether it is electricity, magnetic field, or electronic system and control system, they must be consistent and the magnetic field cannot interfere with the operation of the equipment."
"So a lot of experimental testing needs to be done
"but."
He changed his tone and said, "If you just want to see the invisible shield, you can try running them separately after the installation is completed."
"when?"
"It should be fine after the equipment is debugged, probably the day after tomorrow..." Xu Hongwei's voice was a little uncertain.
Teacher Zhou is already looking forward to it very much.
Invisible shield!
Although the Anti-Gravity Behavior Research Center has seen it, what it saw was only experimental equipment, and what was in front of it was the real Kongjian-2 aircraft...