Homo sapiens.
Chapter 189 New Technology
Chapter 189 New Technology (Addition)
Li Qingye in Luzon is actually very aware of the salvage and research of B43.
It's just that he didn't intervene, but let his subordinates and professionals handle it.
After all, Homo sapiens now has four control areas. If he, the chairman, needs to do everything himself, he can't handle it even if he has a super brain.
Otherwise, why would he recruit troops and buy horses?
As a display?
If you have subordinates, you must let them work. His core job is to control the general direction and scientific research, and there is no need to do specific things by himself.
At this time he was working on nanotechnology, bionanotechnology to be precise.
In fact, the structures of living organisms and organic materials are various nanostructures in the microcosm.
For example, silk, spider silk, abalone shell and the like are typical nanostructure materials.
Li Qingye paid attention to the research in this area, mainly because he developed cell-directed development technology and biomineralization induction technology when he was studying biochips.
After in-depth integration and improvement of these technologies, he has successively developed a series of new bio-nanomaterials.
Including the low-temperature glass and iron bamboo materials that were tried in the past, are actually an attempt of this technology.
Recently, Li Qingye used a submarine to collect a special kind of sea snail, the scaly-footed snail, from the vicinity of the hot springs in the Ceylon Ocean.
From the gene sequence of the scaly-footed snail, he discovered a special gene sequence that can enrich metal elements and form a nano-iron sulfide layer.
Through genetic recombination technology, Li Qingye combined some of the dominant genes of coral, scale-footed snails, seabed hydrothermal vent bacteria, and metal ore bacteria to create biological high manganese steel.
In the special breeding pool in the laboratory.
A piece of coral is slowly growing.
Several experimental assistants pressed the drainage system of the cultivation pond, and the nutrient solution in the cultivation pond was sucked up immediately, and then the automatic transportation system was activated.
The wheels at the bottom of the cultivation pool began to drive slowly towards the elevator.
Through the elevator, they arrived at the experimental area on the upper floor.
Here, the baffles on all sides of the breeding tank are opened, revealing layers of gray-white corals, each layer of coral structure is 2 cm thick.
The emery waterjet quickly divided the coral structure layer by layer, and the last upper layer, because the genetically modified coral polyps were still there, was put back into a new cultivation pool and sent to the experimental area below to continue cultivation.
The cut coral structure layer has 20 layers, each layer is 2 cm thick, and the length and width are 100 cm.
Sending these plates into the acid hydrolysis tank can decompose the coral calcification layer on the surface of the coral plates, exposing the dark gray biological high manganese steel plates inside.
The strength of this sheet is ridiculously high, and due to its low-temperature synthesis, each lattice is nano-scale and neatly arranged.
其强度相当于普通高锰钢的3.72倍,硬度是为1.43倍、耐腐蚀性为3.21倍,能耗相当于普通钢铁的23~27%左右。
This kind of strength, hardness, and corrosion resistance are more than enough as raw materials for precision equipment.
In addition to bio-high manganese steel, there are also bio-molybdenum steel and bio-titanium steel. The former is resistant to high temperature and wear, and the latter is light, corrosion-resistant and has high bio-affinity.
In addition, the alloy material produced in this way has another advantage, that is, it can reduce secondary processing and can be formed at one time.
Essentially, biosynthetic alloys belong to additive processing.
Now the finishing machining is generally subtractive machining.
The effects of these two processing methods are different, and their costs are also different.
As for who is superior and who is inferior, it depends on the technical level of both parties.
For example, the 3D printing technology of additive processing is currently difficult to fight against traditional subtractive processing in the field of metal processing.
But Li Qingye's biosynthetic material technology is different. After all, it has achieved ultra-precise growth at the nanometer level, and the technology is obviously a level higher.
With the help of Li Qingye's assistant.
Put a steel plate marked No. 53 on the high temperature test platform.
"Start heating up!"
"Yes, boss!" The assistant pressed the switch.
Immediately, on the high temperature test platform, an electric heating system similar to an electric arc furnace began to fully heat the steel plate.
Time slipped away by the minute.
And the heating temperature on the platform is also rising steadily.
500 degrees Celsius...
800 degrees Celsius...
1200 degrees Celsius...
But the steel plate showed no signs of melting.
It was not until the temperature was raised to 3736 degrees Celsius that the steel plate was slightly deformed, but it still did not melt.
Then the temperature was raised again to 5122 degrees Celsius. At this time, the steel plate finally melted, but the melting was not complete, and some of them appeared in a state of clumps, like viscous magma.
Finally, the temperature reached 5506 degrees Celsius, and the molten steel was like boiling water.
The assistant held the biological tablet and recorded the series of experimental data.
Next, repeat the heating and cooling experiments at 500°C, 1000°C, 1500°C, and 2000°C.
In addition, it was also divided into a control group of whole heating, single surface heating, and partial heating.
This alloy is biological nano-molybdenum-manganese steel.
However, this material is not the ultimate high temperature resistant material, and the real high temperature resistant material depends on the ceramic matrix composite material.
In this regard, Li Qingye is also working on biosynthesis.
Among the biological nano-ceramic sequences formed by adding a part of carbon, molybdenum and titanium, some species can grow bio-nano ceramics with a melting point of 5637 degrees Celsius and a boiling point of 5912 degrees Celsius.
Why does Li Qingye pay so much attention to the research and development of materials?
The reason is that Homo sapiens' precision machining technology is very backward, not to mention catching up with Europe and the United States, even if it is compared with Huaguo enterprises, it is not comparable.
With the processing technology and processing equipment of the last century, no matter how powerful the supercomputer and engineer are, it is difficult for a clever woman to cook without rice.
Therefore, the material has become the only choice for corner overtaking.
As long as the material is good enough, you can play the set of flying big bricks.
The engine isn't good enough, is it?
Directly to ultra-high temperature deflagration.
Not accurate?
Then the hardness and strength will compensate.
Design behind?
Hard pile of materials.
It's like a chef cooking. The other party's cooking skills are very good and can turn decay into magic; then I will directly use top-quality ingredients and cook in the simplest way.
The advantage of Homo Sapiens is the low-cost production of materials. These top-level materials can reach the price of cabbage, even if the processing technology is not good, the effect will be similar.
For example, some time ago, the development group of Hongshawadi purchased the old MiG-25 fighter jet production line from Lucia's Sukhoi Airlines through product exchange.
Sukhoi, which received the legacy of the MiG company, didn't pay too much attention to this kind of old-fashioned stuff. After refurbishing the sealed production line, it sold it to the development group in tears.
Homo sapiens purchased the MiG-25 production line through the vest before, the purpose is to take a fancy to the stainless steel design of the MiG-25.
This is no joke.
Due to the use of a large amount of stainless steel, the weight of the MiG 25's body is too large, resulting in very high fuel consumption, mediocre range, and a short engine life.
But this kind of shortcoming is not a problem at all for Homo sapiens.
Now Li Qingye has developed all kinds of new materials, and if you take out a few of them at will, you can completely change the MiG-25.
At that time, the upgraded MiG 25 will probably not be worse than the Rafale among the fighters in active service around the world.
Thank you for your support (ω`), please subscribe, collect, monthly and recommendation tickets.
(End of this chapter)
Li Qingye in Luzon is actually very aware of the salvage and research of B43.
It's just that he didn't intervene, but let his subordinates and professionals handle it.
After all, Homo sapiens now has four control areas. If he, the chairman, needs to do everything himself, he can't handle it even if he has a super brain.
Otherwise, why would he recruit troops and buy horses?
As a display?
If you have subordinates, you must let them work. His core job is to control the general direction and scientific research, and there is no need to do specific things by himself.
At this time he was working on nanotechnology, bionanotechnology to be precise.
In fact, the structures of living organisms and organic materials are various nanostructures in the microcosm.
For example, silk, spider silk, abalone shell and the like are typical nanostructure materials.
Li Qingye paid attention to the research in this area, mainly because he developed cell-directed development technology and biomineralization induction technology when he was studying biochips.
After in-depth integration and improvement of these technologies, he has successively developed a series of new bio-nanomaterials.
Including the low-temperature glass and iron bamboo materials that were tried in the past, are actually an attempt of this technology.
Recently, Li Qingye used a submarine to collect a special kind of sea snail, the scaly-footed snail, from the vicinity of the hot springs in the Ceylon Ocean.
From the gene sequence of the scaly-footed snail, he discovered a special gene sequence that can enrich metal elements and form a nano-iron sulfide layer.
Through genetic recombination technology, Li Qingye combined some of the dominant genes of coral, scale-footed snails, seabed hydrothermal vent bacteria, and metal ore bacteria to create biological high manganese steel.
In the special breeding pool in the laboratory.
A piece of coral is slowly growing.
Several experimental assistants pressed the drainage system of the cultivation pond, and the nutrient solution in the cultivation pond was sucked up immediately, and then the automatic transportation system was activated.
The wheels at the bottom of the cultivation pool began to drive slowly towards the elevator.
Through the elevator, they arrived at the experimental area on the upper floor.
Here, the baffles on all sides of the breeding tank are opened, revealing layers of gray-white corals, each layer of coral structure is 2 cm thick.
The emery waterjet quickly divided the coral structure layer by layer, and the last upper layer, because the genetically modified coral polyps were still there, was put back into a new cultivation pool and sent to the experimental area below to continue cultivation.
The cut coral structure layer has 20 layers, each layer is 2 cm thick, and the length and width are 100 cm.
Sending these plates into the acid hydrolysis tank can decompose the coral calcification layer on the surface of the coral plates, exposing the dark gray biological high manganese steel plates inside.
The strength of this sheet is ridiculously high, and due to its low-temperature synthesis, each lattice is nano-scale and neatly arranged.
其强度相当于普通高锰钢的3.72倍,硬度是为1.43倍、耐腐蚀性为3.21倍,能耗相当于普通钢铁的23~27%左右。
This kind of strength, hardness, and corrosion resistance are more than enough as raw materials for precision equipment.
In addition to bio-high manganese steel, there are also bio-molybdenum steel and bio-titanium steel. The former is resistant to high temperature and wear, and the latter is light, corrosion-resistant and has high bio-affinity.
In addition, the alloy material produced in this way has another advantage, that is, it can reduce secondary processing and can be formed at one time.
Essentially, biosynthetic alloys belong to additive processing.
Now the finishing machining is generally subtractive machining.
The effects of these two processing methods are different, and their costs are also different.
As for who is superior and who is inferior, it depends on the technical level of both parties.
For example, the 3D printing technology of additive processing is currently difficult to fight against traditional subtractive processing in the field of metal processing.
But Li Qingye's biosynthetic material technology is different. After all, it has achieved ultra-precise growth at the nanometer level, and the technology is obviously a level higher.
With the help of Li Qingye's assistant.
Put a steel plate marked No. 53 on the high temperature test platform.
"Start heating up!"
"Yes, boss!" The assistant pressed the switch.
Immediately, on the high temperature test platform, an electric heating system similar to an electric arc furnace began to fully heat the steel plate.
Time slipped away by the minute.
And the heating temperature on the platform is also rising steadily.
500 degrees Celsius...
800 degrees Celsius...
1200 degrees Celsius...
But the steel plate showed no signs of melting.
It was not until the temperature was raised to 3736 degrees Celsius that the steel plate was slightly deformed, but it still did not melt.
Then the temperature was raised again to 5122 degrees Celsius. At this time, the steel plate finally melted, but the melting was not complete, and some of them appeared in a state of clumps, like viscous magma.
Finally, the temperature reached 5506 degrees Celsius, and the molten steel was like boiling water.
The assistant held the biological tablet and recorded the series of experimental data.
Next, repeat the heating and cooling experiments at 500°C, 1000°C, 1500°C, and 2000°C.
In addition, it was also divided into a control group of whole heating, single surface heating, and partial heating.
This alloy is biological nano-molybdenum-manganese steel.
However, this material is not the ultimate high temperature resistant material, and the real high temperature resistant material depends on the ceramic matrix composite material.
In this regard, Li Qingye is also working on biosynthesis.
Among the biological nano-ceramic sequences formed by adding a part of carbon, molybdenum and titanium, some species can grow bio-nano ceramics with a melting point of 5637 degrees Celsius and a boiling point of 5912 degrees Celsius.
Why does Li Qingye pay so much attention to the research and development of materials?
The reason is that Homo sapiens' precision machining technology is very backward, not to mention catching up with Europe and the United States, even if it is compared with Huaguo enterprises, it is not comparable.
With the processing technology and processing equipment of the last century, no matter how powerful the supercomputer and engineer are, it is difficult for a clever woman to cook without rice.
Therefore, the material has become the only choice for corner overtaking.
As long as the material is good enough, you can play the set of flying big bricks.
The engine isn't good enough, is it?
Directly to ultra-high temperature deflagration.
Not accurate?
Then the hardness and strength will compensate.
Design behind?
Hard pile of materials.
It's like a chef cooking. The other party's cooking skills are very good and can turn decay into magic; then I will directly use top-quality ingredients and cook in the simplest way.
The advantage of Homo Sapiens is the low-cost production of materials. These top-level materials can reach the price of cabbage, even if the processing technology is not good, the effect will be similar.
For example, some time ago, the development group of Hongshawadi purchased the old MiG-25 fighter jet production line from Lucia's Sukhoi Airlines through product exchange.
Sukhoi, which received the legacy of the MiG company, didn't pay too much attention to this kind of old-fashioned stuff. After refurbishing the sealed production line, it sold it to the development group in tears.
Homo sapiens purchased the MiG-25 production line through the vest before, the purpose is to take a fancy to the stainless steel design of the MiG-25.
This is no joke.
Due to the use of a large amount of stainless steel, the weight of the MiG 25's body is too large, resulting in very high fuel consumption, mediocre range, and a short engine life.
But this kind of shortcoming is not a problem at all for Homo sapiens.
Now Li Qingye has developed all kinds of new materials, and if you take out a few of them at will, you can completely change the MiG-25.
At that time, the upgraded MiG 25 will probably not be worse than the Rafale among the fighters in active service around the world.
Thank you for your support (ω`), please subscribe, collect, monthly and recommendation tickets.
(End of this chapter)
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