this narration is wrong
Chapter 156 Ways to Improve Metal Strength
Chapter 156 Ways to Improve Metal Strength
After listening to the narration, Guo Yuan frowned.
The narration did prove that the alloy researched by Rongyang Technology itself is feasible.
But the problem is that it is impossible for the high-temperature fuser at this stage to reach 5500 degrees. In other words, this alloy cannot be manufactured at this stage, and it is no different from none.
"Mr. Wang, how much are you going to invest in this company?"
"500."
[Rongyang Technology has a new idea that can improve the airtightness of the high-temperature fuser, thereby increasing the internal temperature. This idea needs multiple experiments to verify, and visually requires 540 million funds.
Regardless of whether Future Technology chooses to invest or not, Rongyang Technology can raise enough money to verify the idea.
After the successful verification of this idea, the constant temperature of Rongyang Technology's high-temperature fuser can reach 1900°, which is only one line away from the top level in China.
But that's all, Rongyang Technology will not be able to make a breakthrough in the future, and Rongyang Technology will still declare bankruptcy in the end.
In order to reverse this situation, it is necessary to make a breakthrough in the overall structure of the high-temperature fuser, especially in the heating method and energy of the high-temperature fuser. 】
Although the narration did not directly give a solution to upgrade the high-temperature fuser, it gave hints in a disguised form, and you can find a solution from the heating method and energy.
Guo Yuan thought about it and decided to support it. He said to Mr. Wang: "Mr. Wang, I agree with your idea of setting up a venture capital company. You can also make these two investments, but you have to pay close attention to it. Our investment will not be used for other things.
In addition, I heard that the heating method and energy source of the high-temperature fuser often affect the maximum temperature of the high-temperature fuser. You can pay more attention to these two aspects. "
"Okay! I see, I'll make arrangements now."
After the senior executives of Future Technology left, Guo Yuan directly woke up 01 and asked him to help find information about the high-temperature fuser.
Guo Yuan simply browsed through and quickly understood that the so-called high-temperature fuser is actually a general term, not a specific device.
Take Ti-6Al-4V titanium-aluminum alloy as an example (a general-purpose metal for F-series fighter jets in the United States), this alloy requires powder casting and hot isostatic pressing, and α+β annealing.
The so-called high-temperature fuser is an instrument that can assist in completing these steps.
Of course, as the narration said just now, it is not enough to just know the principle of the process, and many of the processing details cannot be imagined out of fantasy.
Many top engineers in China know the general manufacturing process of this titanium-aluminum alloy, but they still can't make it.
This is because the processing details and high-temperature fuser technology are not in place.
This type of alloy, looking at the world, only rice, island, and Russia have achieved large-scale mass production.
Russia is still the "heritage" left by the scenery of the ancestors.
In this regard, Huaxia is still in the stage of laboratory preparation.
At present, only the TC-4DT titanium alloy with medium strength and relatively poor ductility is used in the J-[-].
But then again, the use of this material actually reduces the weight of the airframe and increases the flight speed of some airframes, which can only be said to be a blessing in disguise.
Moreover, the material itself is not enough. If you want to obtain an alloy that is excellent in all aspects, you also need to consider the crystal phase.
As far as the current field of materials science is concerned, there are two ways to improve the strength of metals: one is super-large crystals, and it is best that the entire material is composed of one crystal, without grain boundaries inside, and the error is 0.
But this technology is difficult to use on too large metal components, mostly used in engines, single crystal alloys.
The second is to make the crystal grains as small as possible, and the crystallization errors of different atoms are as many as possible. At this time, when an external force is applied, the grains will slide relative to each other along the grain boundaries.
But because the crystal grains are too small and there are too many mistakes, the directions of relative sliding are inconsistent, sliding and sliding will jam each other, and the difficulty will increase accordingly.
Guo Yuan is not the material to learn, even if there are particularly detailed materials found by 01, after reading it, he still has only a half-knowledge of these things.
"Forget it, since you don't understand it, don't read it." Guo Yuan closed the interface.
"01 Is there anything more interesting recently?" Guo Yuan asked.
"The search chain is complete!"
Afterwards, a large series of links appeared on the computer screen. Guo Yuan quickly browsed through them and found that most of them were flamboyant news.
Among them, two links caught Guo Yuan's attention, one is: "Musk believes that carbon-based life is the bootstrap of silicon-based life."
One is "Chinese scientists have successfully synthesized starch with carbon dioxide."
Guo Yuan clicked on the link in front of him. This is an interview.
Musk believes that humans are not the only intelligent life in the universe.
He feels that the conditions for the existence of carbon-based life are too harsh. Compared with the environment in the universe, it is obvious that silicon-based life is more likely to evolve into intelligent life.
The so-called silicon-based life, as opposed to carbon-based life, refers to life composed of biomolecules with a silicon skeleton.
If Guo Yuan creates a domestic robot and then endows him with strong artificial intelligence, in a sense, it can be regarded as a "silicon-based life".
The reason for the conjecture of silicon-based life is that silicon, like carbon, is widely distributed in the universe, and in the periodic table of elements, silicon is just below carbon, so it has many basic properties similar to carbon.
In theory, silicon may indeed be an element that can be used as a substitute for carbon to form living organisms.
Moreover, silicon-based life is most likely to be some specific life form, most likely composed of a substance similar to silicone, which looks like some movable crystals.
Musk believes that this type of organism is easier to adapt to the living environment of the universe than carbon-based organisms.
Take Mars as an example, the environment of Mars is difficult for people on earth to survive, but if it is a silicon-based life, even if the conditions of Mars are harsher, it does not matter to them at all.
A temperature difference of 100 degrees Celsius between day and night is not a problem at all, let alone 100 degrees Celsius, 1000 degrees Celsius is not unacceptable.
The radiation on Mars, cosmic rays, will not have any effect on the basic properties of silicon.
That's why Musk thinks that it is very likely that after humans leave the solar system, the life they encounter will be silicon-based life, and subsequent humans may choose to transition to silicon-based life in order to adapt to the universe.
This is what he said: the reason why carbon-based life is the boot program of silicon-based life.
For Musk's words, Guo Yuan still finds it quite interesting.
Because Guo Yuan also agrees with the view that human beings are not the only intelligent life in the universe.
Musk's idea is that silicon-based life is easier to survive in the universe than carbon-based life.
But Guo Yuan feels that whether silicon-based life exists or not is another matter!Even if it exists, it is difficult to give birth to advanced civilization. (I won’t expand it in detail. If you are interested, you can Baidu it yourself.)
(End of this chapter)
After listening to the narration, Guo Yuan frowned.
The narration did prove that the alloy researched by Rongyang Technology itself is feasible.
But the problem is that it is impossible for the high-temperature fuser at this stage to reach 5500 degrees. In other words, this alloy cannot be manufactured at this stage, and it is no different from none.
"Mr. Wang, how much are you going to invest in this company?"
"500."
[Rongyang Technology has a new idea that can improve the airtightness of the high-temperature fuser, thereby increasing the internal temperature. This idea needs multiple experiments to verify, and visually requires 540 million funds.
Regardless of whether Future Technology chooses to invest or not, Rongyang Technology can raise enough money to verify the idea.
After the successful verification of this idea, the constant temperature of Rongyang Technology's high-temperature fuser can reach 1900°, which is only one line away from the top level in China.
But that's all, Rongyang Technology will not be able to make a breakthrough in the future, and Rongyang Technology will still declare bankruptcy in the end.
In order to reverse this situation, it is necessary to make a breakthrough in the overall structure of the high-temperature fuser, especially in the heating method and energy of the high-temperature fuser. 】
Although the narration did not directly give a solution to upgrade the high-temperature fuser, it gave hints in a disguised form, and you can find a solution from the heating method and energy.
Guo Yuan thought about it and decided to support it. He said to Mr. Wang: "Mr. Wang, I agree with your idea of setting up a venture capital company. You can also make these two investments, but you have to pay close attention to it. Our investment will not be used for other things.
In addition, I heard that the heating method and energy source of the high-temperature fuser often affect the maximum temperature of the high-temperature fuser. You can pay more attention to these two aspects. "
"Okay! I see, I'll make arrangements now."
After the senior executives of Future Technology left, Guo Yuan directly woke up 01 and asked him to help find information about the high-temperature fuser.
Guo Yuan simply browsed through and quickly understood that the so-called high-temperature fuser is actually a general term, not a specific device.
Take Ti-6Al-4V titanium-aluminum alloy as an example (a general-purpose metal for F-series fighter jets in the United States), this alloy requires powder casting and hot isostatic pressing, and α+β annealing.
The so-called high-temperature fuser is an instrument that can assist in completing these steps.
Of course, as the narration said just now, it is not enough to just know the principle of the process, and many of the processing details cannot be imagined out of fantasy.
Many top engineers in China know the general manufacturing process of this titanium-aluminum alloy, but they still can't make it.
This is because the processing details and high-temperature fuser technology are not in place.
This type of alloy, looking at the world, only rice, island, and Russia have achieved large-scale mass production.
Russia is still the "heritage" left by the scenery of the ancestors.
In this regard, Huaxia is still in the stage of laboratory preparation.
At present, only the TC-4DT titanium alloy with medium strength and relatively poor ductility is used in the J-[-].
But then again, the use of this material actually reduces the weight of the airframe and increases the flight speed of some airframes, which can only be said to be a blessing in disguise.
Moreover, the material itself is not enough. If you want to obtain an alloy that is excellent in all aspects, you also need to consider the crystal phase.
As far as the current field of materials science is concerned, there are two ways to improve the strength of metals: one is super-large crystals, and it is best that the entire material is composed of one crystal, without grain boundaries inside, and the error is 0.
But this technology is difficult to use on too large metal components, mostly used in engines, single crystal alloys.
The second is to make the crystal grains as small as possible, and the crystallization errors of different atoms are as many as possible. At this time, when an external force is applied, the grains will slide relative to each other along the grain boundaries.
But because the crystal grains are too small and there are too many mistakes, the directions of relative sliding are inconsistent, sliding and sliding will jam each other, and the difficulty will increase accordingly.
Guo Yuan is not the material to learn, even if there are particularly detailed materials found by 01, after reading it, he still has only a half-knowledge of these things.
"Forget it, since you don't understand it, don't read it." Guo Yuan closed the interface.
"01 Is there anything more interesting recently?" Guo Yuan asked.
"The search chain is complete!"
Afterwards, a large series of links appeared on the computer screen. Guo Yuan quickly browsed through them and found that most of them were flamboyant news.
Among them, two links caught Guo Yuan's attention, one is: "Musk believes that carbon-based life is the bootstrap of silicon-based life."
One is "Chinese scientists have successfully synthesized starch with carbon dioxide."
Guo Yuan clicked on the link in front of him. This is an interview.
Musk believes that humans are not the only intelligent life in the universe.
He feels that the conditions for the existence of carbon-based life are too harsh. Compared with the environment in the universe, it is obvious that silicon-based life is more likely to evolve into intelligent life.
The so-called silicon-based life, as opposed to carbon-based life, refers to life composed of biomolecules with a silicon skeleton.
If Guo Yuan creates a domestic robot and then endows him with strong artificial intelligence, in a sense, it can be regarded as a "silicon-based life".
The reason for the conjecture of silicon-based life is that silicon, like carbon, is widely distributed in the universe, and in the periodic table of elements, silicon is just below carbon, so it has many basic properties similar to carbon.
In theory, silicon may indeed be an element that can be used as a substitute for carbon to form living organisms.
Moreover, silicon-based life is most likely to be some specific life form, most likely composed of a substance similar to silicone, which looks like some movable crystals.
Musk believes that this type of organism is easier to adapt to the living environment of the universe than carbon-based organisms.
Take Mars as an example, the environment of Mars is difficult for people on earth to survive, but if it is a silicon-based life, even if the conditions of Mars are harsher, it does not matter to them at all.
A temperature difference of 100 degrees Celsius between day and night is not a problem at all, let alone 100 degrees Celsius, 1000 degrees Celsius is not unacceptable.
The radiation on Mars, cosmic rays, will not have any effect on the basic properties of silicon.
That's why Musk thinks that it is very likely that after humans leave the solar system, the life they encounter will be silicon-based life, and subsequent humans may choose to transition to silicon-based life in order to adapt to the universe.
This is what he said: the reason why carbon-based life is the boot program of silicon-based life.
For Musk's words, Guo Yuan still finds it quite interesting.
Because Guo Yuan also agrees with the view that human beings are not the only intelligent life in the universe.
Musk's idea is that silicon-based life is easier to survive in the universe than carbon-based life.
But Guo Yuan feels that whether silicon-based life exists or not is another matter!Even if it exists, it is difficult to give birth to advanced civilization. (I won’t expand it in detail. If you are interested, you can Baidu it yourself.)
(End of this chapter)
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