Chapter 241
In the next few days, in addition to continuing to test the 'ion electric field generator', the skeleton structure of the aircraft was also produced batch by batch.
Then they are separated and stacked in another factory building according to the purpose.
These things are not ready to be assembled, at least not until the first 'electric propulsion-free propellant engine' is manufactured and tested.
According to the current progress, Han Yuan speculated that the aircraft will be manufactured in about two months.
Of course, this refers to the hardware.
And it still doesn't include the computer control hardware.
This is still under the condition that he can use technology points to exchange parts.
Such as 'electric propulsion - no working medium engine', 'high energy storage lithium battery' and 'high efficiency solar photosynthetic power generation panels', etc., which require a large number of complex components.
These parts won are intended to be exchanged through technology points after the samples are manufactured.
Otherwise, in a year, let alone manufacturing the aircraft, he would not be able to get out even the spare parts.
The previous conjecture was correct, this time the third-level mission was the one that consumed the most technology points in history.
From the beginning of the mission to the present, he has consumed more than 100 technology points in just over 6 days.
These credits are redeemed for various high-purity materials and parts.
If it weren't for the previous technology points that have been accumulated there and haven't been used much, and every time a new item is created, the technology points will be rewarded according to the value, I'm afraid this task will not be easy.
Han Won did a rough calculation. After this task is completed, the number of technology points he owns may fall below [-].
And he had nearly 40 technology points before the third-level mission started.
A task consumes more than 30 technology points, which is something that I never thought about before.
But there is no way, because of time constraints and labor issues, he does not have enough time and labor to produce 'electric propulsion engines' and 'high energy storage lithium batteries' one by one.
The only way is to create experimental products and complete various tests to redeem them with technology points.
Theoretically speaking, the third-level mission this time is almost accumulated by technology points.
After the aircraft was built and completed its mission, he had to find a way to get the artificial intelligence and robots out.
At the very least, the production of basic materials and simple parts must be guaranteed, right?
I don't know what the fourth-level task is. Once it is similar to the third-level task, it will be a scam if the task fails due to lack of labor or technology points.
The tests on the 'Ion Electric Field Generator' generator lasted more than five days.
The 'Ion Electric Field Generator' manufactured under the condition of his concentrated energy and all-out effort finally passed all limit tests stably and even excellently.
This is a happy good news.
Moreover, in the past five days or so, Han Yuan also simultaneously used various industrial equipment in the steel bar factory to manufacture a small part of the aircraft's skeleton structure.
After these skeleton structures passed the test, they were uniformly placed in another steel bar factory for safekeeping, waiting for the day when they will be put into use.
After completing the test of 'Ion Electric Field Generator', Won started the manufacture of the second core component 'Isothermal Magnetic Field Generator' non-stop.
Like the 'ion electric field generator', the 'isothermal magnetic field generator' is also a complex and precise part.
However, compared with the 'Ion Electric Field Generator', the 'Isothermal Magnetic Field Generator' is a little more concise.
Of course, simplicity here refers only to the structure and the kind of materials required.
From the design drawing, the 'isothermal magnetic field generator' is the horn-like device at the tail of the electric propulsion engine.
The top is thin and the bottom is thick, the inside is smooth, and the outside has countless magnetic wire interfaces and magnetic wires like the invisible magnetic field lines of the earth.
In fact, the thing was originally a simulated planetary magnetic field.
It's just that its designer designed the shape of its core as a horn with a thin top and a thick bottom.
Although this thing is a lot more brief in terms of structure and types of materials required than the 'ion electric field generator'.
But the material it requires is higher in terms of performance.
Some time ago, high-purity materials won't be tossed for more than just 'ion field generators'.
The more critical use is on the 'isothermal magnetic field generator'.
As mentioned before, the alloy materials applied to the "electric propulsion-free working medium engine" are not only required to have excellent high temperature creep resistance, thermomechanical fatigue resistance, oxidation corrosion resistance and high temperature bearing capacity, but also require The material has 'high temperature magnetocrystallinity'.
High-purity titanium-rhenium-aluminum single crystal alloy material is the manufacturing material.
And this material is applied in the core of the 'isothermal magnetic field generator' and the 'tail structure of electrothermal ion propulsion'.
In order to manufacture qualified titanium-rhenium-aluminum single crystal alloys, Won also upgraded the alloy smelter before.
A dust-free workshop, a small melting device and a set of single crystal smelting equipment are divided inside.
With the availability of suitable materials and industrial manufacturing equipment, the manufacture of titanium-rhenium-aluminum single crystal alloy materials is not difficult.
It took a few days to go through the single crystal smelting furnace, and after failing once and destroying a single crystal smelting furnace, South Korean Won succeeded in producing the 'titanium-rhenium-aluminum single crystal alloy'.
At this step, most countries can keep up with the pace.
This should be the first time electric propulsion engines have ever been manufactured.
After all, the smelting of single crystal alloys is already a very mature technology on earth.
And compared to the Korean won's imperfect industrial system and the extreme lack of manpower, countries that have mastered single crystal alloy smelting technology do not lack these things.
Especially in terms of vacuum smelting equipment and clean rooms, the conditions are much better than those of Won.
But no matter how good the conditions are, it's useless. If you want to reproduce it, you can only succeed first, and then them.
Just like the first time to smelt titanium-rhenium-aluminum single crystal alloy, the synchronism of various countries was still delighted to be able to keep up with the rhythm of re-engraving.
But I didn't expect that the other party's first smelting failed due to some unexpected problems. For this reason, a furnace of alloy materials was lost and a single crystal smelting furnace was scrapped.
As a result, the replicas that were simultaneously opened by laboratories in various countries also failed.
Because they did it together, all the steps are the same, so when the won fails, they will also fail.
Although the loss of a furnace of alloy materials and a single crystal smelting furnace in a laboratory does not sound like a big deal, the loss in the whole world at the same time is not a small amount.
You must know that some raw material metals in the 'titanium-rhenium-aluminum single crystal alloy material' are not cheap.
For example, the main material rhenium costs tens of thousands per catty, not to mention rare metals such as iridium, platinum, and indium doped in the middle.
Even the cost of a furnace of alloy materials is hundreds of thousands.
More importantly, it was the scrapped single crystal smelting furnace.
The value of this thing is much higher than the value of various alloy raw materials.
A complete set of single crystal smelting furnace is worth more than 3000 million yuan.
Even the rich and powerful countries of China and the United States are also distressed.
Because they started the replica experiment at the same time, there was more than one laboratory. Even if some laboratories started a little later, they still couldn't change the outcome of the failure.
In China and the United States alone, more than [-] sets of single crystal smelting furnaces were lost this time, plus alloy materials, wasted manpower, material resources and energy.
Because of this wave of unexpected smelting failures of the Korean won, all the losses in the whole world are initially estimated to be more than [-] billion.
The South Korean won's failure to smelt titanium-rhenium-aluminum single crystal alloy material this time, not only made all countries feel like crying, but also woke up.
In the past, Han Won's one-time success in making things gave them the illusion that one-time success was inevitable.
And this time they found out that this anchor is not omnipotent, and he will fail!
Unfortunately, by the time I realized this, it was already too late.
(End of this chapter)
In the next few days, in addition to continuing to test the 'ion electric field generator', the skeleton structure of the aircraft was also produced batch by batch.
Then they are separated and stacked in another factory building according to the purpose.
These things are not ready to be assembled, at least not until the first 'electric propulsion-free propellant engine' is manufactured and tested.
According to the current progress, Han Yuan speculated that the aircraft will be manufactured in about two months.
Of course, this refers to the hardware.
And it still doesn't include the computer control hardware.
This is still under the condition that he can use technology points to exchange parts.
Such as 'electric propulsion - no working medium engine', 'high energy storage lithium battery' and 'high efficiency solar photosynthetic power generation panels', etc., which require a large number of complex components.
These parts won are intended to be exchanged through technology points after the samples are manufactured.
Otherwise, in a year, let alone manufacturing the aircraft, he would not be able to get out even the spare parts.
The previous conjecture was correct, this time the third-level mission was the one that consumed the most technology points in history.
From the beginning of the mission to the present, he has consumed more than 100 technology points in just over 6 days.
These credits are redeemed for various high-purity materials and parts.
If it weren't for the previous technology points that have been accumulated there and haven't been used much, and every time a new item is created, the technology points will be rewarded according to the value, I'm afraid this task will not be easy.
Han Won did a rough calculation. After this task is completed, the number of technology points he owns may fall below [-].
And he had nearly 40 technology points before the third-level mission started.
A task consumes more than 30 technology points, which is something that I never thought about before.
But there is no way, because of time constraints and labor issues, he does not have enough time and labor to produce 'electric propulsion engines' and 'high energy storage lithium batteries' one by one.
The only way is to create experimental products and complete various tests to redeem them with technology points.
Theoretically speaking, the third-level mission this time is almost accumulated by technology points.
After the aircraft was built and completed its mission, he had to find a way to get the artificial intelligence and robots out.
At the very least, the production of basic materials and simple parts must be guaranteed, right?
I don't know what the fourth-level task is. Once it is similar to the third-level task, it will be a scam if the task fails due to lack of labor or technology points.
The tests on the 'Ion Electric Field Generator' generator lasted more than five days.
The 'Ion Electric Field Generator' manufactured under the condition of his concentrated energy and all-out effort finally passed all limit tests stably and even excellently.
This is a happy good news.
Moreover, in the past five days or so, Han Yuan also simultaneously used various industrial equipment in the steel bar factory to manufacture a small part of the aircraft's skeleton structure.
After these skeleton structures passed the test, they were uniformly placed in another steel bar factory for safekeeping, waiting for the day when they will be put into use.
After completing the test of 'Ion Electric Field Generator', Won started the manufacture of the second core component 'Isothermal Magnetic Field Generator' non-stop.
Like the 'ion electric field generator', the 'isothermal magnetic field generator' is also a complex and precise part.
However, compared with the 'Ion Electric Field Generator', the 'Isothermal Magnetic Field Generator' is a little more concise.
Of course, simplicity here refers only to the structure and the kind of materials required.
From the design drawing, the 'isothermal magnetic field generator' is the horn-like device at the tail of the electric propulsion engine.
The top is thin and the bottom is thick, the inside is smooth, and the outside has countless magnetic wire interfaces and magnetic wires like the invisible magnetic field lines of the earth.
In fact, the thing was originally a simulated planetary magnetic field.
It's just that its designer designed the shape of its core as a horn with a thin top and a thick bottom.
Although this thing is a lot more brief in terms of structure and types of materials required than the 'ion electric field generator'.
But the material it requires is higher in terms of performance.
Some time ago, high-purity materials won't be tossed for more than just 'ion field generators'.
The more critical use is on the 'isothermal magnetic field generator'.
As mentioned before, the alloy materials applied to the "electric propulsion-free working medium engine" are not only required to have excellent high temperature creep resistance, thermomechanical fatigue resistance, oxidation corrosion resistance and high temperature bearing capacity, but also require The material has 'high temperature magnetocrystallinity'.
High-purity titanium-rhenium-aluminum single crystal alloy material is the manufacturing material.
And this material is applied in the core of the 'isothermal magnetic field generator' and the 'tail structure of electrothermal ion propulsion'.
In order to manufacture qualified titanium-rhenium-aluminum single crystal alloys, Won also upgraded the alloy smelter before.
A dust-free workshop, a small melting device and a set of single crystal smelting equipment are divided inside.
With the availability of suitable materials and industrial manufacturing equipment, the manufacture of titanium-rhenium-aluminum single crystal alloy materials is not difficult.
It took a few days to go through the single crystal smelting furnace, and after failing once and destroying a single crystal smelting furnace, South Korean Won succeeded in producing the 'titanium-rhenium-aluminum single crystal alloy'.
At this step, most countries can keep up with the pace.
This should be the first time electric propulsion engines have ever been manufactured.
After all, the smelting of single crystal alloys is already a very mature technology on earth.
And compared to the Korean won's imperfect industrial system and the extreme lack of manpower, countries that have mastered single crystal alloy smelting technology do not lack these things.
Especially in terms of vacuum smelting equipment and clean rooms, the conditions are much better than those of Won.
But no matter how good the conditions are, it's useless. If you want to reproduce it, you can only succeed first, and then them.
Just like the first time to smelt titanium-rhenium-aluminum single crystal alloy, the synchronism of various countries was still delighted to be able to keep up with the rhythm of re-engraving.
But I didn't expect that the other party's first smelting failed due to some unexpected problems. For this reason, a furnace of alloy materials was lost and a single crystal smelting furnace was scrapped.
As a result, the replicas that were simultaneously opened by laboratories in various countries also failed.
Because they did it together, all the steps are the same, so when the won fails, they will also fail.
Although the loss of a furnace of alloy materials and a single crystal smelting furnace in a laboratory does not sound like a big deal, the loss in the whole world at the same time is not a small amount.
You must know that some raw material metals in the 'titanium-rhenium-aluminum single crystal alloy material' are not cheap.
For example, the main material rhenium costs tens of thousands per catty, not to mention rare metals such as iridium, platinum, and indium doped in the middle.
Even the cost of a furnace of alloy materials is hundreds of thousands.
More importantly, it was the scrapped single crystal smelting furnace.
The value of this thing is much higher than the value of various alloy raw materials.
A complete set of single crystal smelting furnace is worth more than 3000 million yuan.
Even the rich and powerful countries of China and the United States are also distressed.
Because they started the replica experiment at the same time, there was more than one laboratory. Even if some laboratories started a little later, they still couldn't change the outcome of the failure.
In China and the United States alone, more than [-] sets of single crystal smelting furnaces were lost this time, plus alloy materials, wasted manpower, material resources and energy.
Because of this wave of unexpected smelting failures of the Korean won, all the losses in the whole world are initially estimated to be more than [-] billion.
The South Korean won's failure to smelt titanium-rhenium-aluminum single crystal alloy material this time, not only made all countries feel like crying, but also woke up.
In the past, Han Won's one-time success in making things gave them the illusion that one-time success was inevitable.
And this time they found out that this anchor is not omnipotent, and he will fail!
Unfortunately, by the time I realized this, it was already too late.
(End of this chapter)
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