The picture Lin Xiao is seeing now comes from ARPES angle-resolved photoelectron spectroscopy, which is known as the electron structure microscope.

But now, he saw a structure somewhat similar to the fusion tungsten plate on this picture.

That is, the structure that forms a connection between the strong interaction force and the electromagnetic interaction force.

Seeing this, Lin Xiao's brows moved slightly. Could it be that the material on the surface of this moon monument was made based on the same principle?

And if this is the case, it can explain why this material has such amazing properties.

At the same time, this material is also a compound, not a mixture. If it were a mixture, it would be more troublesome.

While thinking in his mind, he also continued to look down.

There are various analysis diagrams below. It was determined that the material on the surface of this monument is a carbon-sulfur compound. At the same time, Lin Xiao also used other analysis diagrams to further determine the inner structure of this material, which must be the electric strength.

Costate.

However, one thing that is certain is that the electric intensity co-state here is far more complicated than the electric intensity co-state on the fusion tungsten plate.

After all, fusion tungsten plates are far from being able to do that.

"It seems that there are ways to strengthen this electromagnetic co-state."

Knowing what he was going to do next, Lin Xiao put down the report in his hand, turned to look at the three academicians, and said, "This material is really incredible."

"But, I see what is written on it, why is it in powder form? Also, is it just the hardness of the surface material?"

Sun Chengjun nodded and replied: "Yes, Chief Lin, you should have seen two small holes on the moon monument, right?"

"Yeah." Lin Xiao nodded. There were indeed two small holes on one side of the moon monument. He didn't know how they came about. But now that he heard Sun Chengjun's words, he couldn't help but ask: "Those two small holes?"

,Did you do it?"

"Yes." Sun Chengjun nodded, and then he couldn't help but sigh: "Speaking of which, we spent a lot of effort to make those two small holes. That was the experiment that allowed us to measure

The hardness of this thing has been measured, and the hardness measured now may not be accurate. The results we measured now are only conservative, and it may be even harder.”

Lin Xiao nodded slightly and became even more excited. After all, according to the data above, this thing not only has extremely high hardness, but also has high toughness.

Although generally speaking, hardness and toughness cannot coexist, there are always some exceptions, such as carbyne sulfide, which is recognized as the hardest material on earth and actually shows strong ability in toughness.

.

Therefore, the relationship between hardness and toughness is only a relative relationship, and there is no absolute situation. For different materials, the relationship between hardness and toughness is different.

And this is good news for Lin Xiao, with high hardness, high toughness, and high heat resistance.

When these few things are put together and placed in the aviation industry, they become the crown turbine fan blades in the material world.

As for the aerospace industry, it is the ultimate material for aerospace engines.

And if aviation and aerospace are combined together, it will be an aerospace plane!

In other words, this new material is the most suitable material for aerospace engines!

Even after using this material on the aerospace engine, the problem of slow mode switching that they faced before can now be easily solved, because now they can try to solve it in a simpler and more crude way.

Is the switching speed slow? Then just increase the torque and violently switch and that's it. In the past, I didn't dare to violently switch because of wear and tear. Wear and tear will affect the life of the engine, and obviously they don't want to spend a lot of money to build an empty space.

The aircraft will be retired soon due to wear and tear.

However, now that the hardness of this new material is so high, I am still worried about the wear and tear of the dermis, so I can just increase the strength and be done.

Even Lin Xiao is now beginning to think that maybe they no longer need to develop a dual-engine system and just go for a single-engine system. One engine can serve as both an aerospace engine and an aerospace engine.

The biggest difference between an aerospace engine and an aerospace engine is that an aerospace engine has turbine blades to accelerate the burned high-pressure gas to the outside, and it also has an air inlet to allow air to enter inside.

The aerospace engine has no air inlet. It just pushes the low-pressure fuel and oxidizer into the high-pressure combustion chamber through the turbine pump, and then the ignited higher-pressure gas is then ignited in the combustion chamber, or the working fluid is directly discharged from the nozzle.

squirt.

Then, the tail flame temperature of aerospace engines is generally about 4,000 degrees Celsius, while that of aerospace engines is about 2,000 degrees Celsius.

Now this material can withstand high temperatures of tens of thousands of degrees, so to a certain extent, it can be placed directly on the nozzle to withstand the tail flame injection of rocket fuel. In this way, it can also be used to combine aviation engines and aerospace engines.

It's been put together.

Of course, this method is definitely inappropriate. After all, there is another thing called heat accumulation, and in the universe there is no air that can be used for cooling the engine, so this solution definitely needs to be PASSed.

However, at this moment, Lin Xiao's eyes suddenly lit up.

At this moment, he suddenly thought of something.

Then he immediately looked around and soon saw a table with paper and pen, so he walked over, picked up the paper and pen, and started calculating on it.

The three academicians next to him didn't understand what he was doing, so they glanced at each other and walked up to see what Lin Xiao was writing.

And soon, they saw it.

Lin Xiao seemed to be calculating the energy generated after an object exploded, as well as the impact force it produced, and then wanted to see if the material on the monument could resist this impact force?

They couldn't help but become more confused, why did Lin Xiao want to do this?

Is it possible that he wants to conduct some kind of explosion test?

But the problem is, they don’t even know how to make the material on the surface of this moon monument?

It’s impossible that Lin Xiao just took a brief look and then had an idea, right?

How can this be?

They have been studying this material for a year since they got it off the moon in 2025, but until now, they still have almost no idea how to reverse engineer this material.

And Lin Xiao just read their experimental report and then had a clue?

Impossible, absolutely impossible!

But after a while, they looked at each other again.

It seems that this is entirely possible?

And just when they began to doubt themselves, Lin Xiao suddenly stood up again, looking at the results he calculated with excitement on his face.

"I can totally resist it!"

He felt extremely excited in his heart.

Because now, he has a new prototype for the future aerospace engine, and this prototype is a nuclear fusion engine.

As for this nuclear fusion engine, strictly speaking, it should actually be a nuclear fusion explosion engine. The method of achieving it is to use inertia to constrain nuclear fusion, and put small projectiles mixed with deuterium and tritium gas directly into the engine, and then

A laser is emitted to hit these projectiles, and then the deuterium and tritium inside them will fuse and then explode, and the impact of the explosion will push the entire spacecraft forward.

Even to a certain extent, such an engine can be built now, because the research on achieving inertial confinement fusion has long been carried out, that is, the hydrogen bomb.

The hydrogen bomb uses the power of the atomic bomb explosion to ignite deuterium and tritium to achieve nuclear fusion. Then the huge heat generated by the nuclear fusion in turn continues to ignite nuclear fission and achieve a stronger explosion again. Therefore, the power of the hydrogen bomb is very high.

And this is why it is said that those who study inertial confinement nuclear fusion are nominally studying energy, but in fact they are studying weapons.

Of course, the power of a hydrogen bomb explosion is so high, even if it does not contain the power of nuclear fission like a hydrogen bomb, it is obviously not something ordinary materials can withstand.

So in the past, no one would consider this kind of engine.

However, now, Lin Xiao has seen the hope of realizing this engine technology.

Because according to his calculations, the materials on the moon monument can withstand this kind of impact!

And as long as the power of the projectile explosion is controlled well, the material can withstand it with almost no loss, thereby increasing the life of the engine.

Suddenly, his heart became more and more excited.

He seemed to have been able to see the scene where their spaceship was flying across the universe.

And the most important thing is that the fuel of this kind of nuclear fusion engine has very small weight requirements. The original aerospace engine needs to carry thousands of tons of fuel. The most important thing is that a lot of the mass is oxidizer, and

Now, the weight of fuel can be reduced tenfold or even a hundredfold.

This is the perfect aerospace engine!

Of course, he quickly calmed down again.

Of course, this is a good thing and a visibly perfect engine, but they haven't made this material yet!

It's not even clear how to achieve mass production.

Therefore, the next task will fall on the research on this material.

Thinking of this, Lin Xiao stood up, turned to the three academicians behind him and said, "Everyone, let's try to study this material."

After hearing Lin Xiao's words, the three academicians all recovered from their self-doubt.

Then, Academician Zhang Ming asked in a low voice: "Chief Lin, can you tell us, do you already know... how to make this material?"

Lin Xiao smiled and then said: "That's not true, but I do have some ideas about its microstructure."

The three academicians were stunned for a moment, and then they were all surprised, "What? Do you know what its microstructure is?"

[To be honest, I have been using Yeguo to read and catch up on books recently. I can switch sources and read aloud with many sounds. www. Android and Apple are available.]

The reason why they have been researching for so long and have not achieved much results lies in this fact. They have no understanding of how the microstructure of the monument material is formed.

Lin Xiao smiled and said: "You three must have never seen the microstructure of the fusion tungsten plate in our controlled nuclear fusion, right?"

"No."
To be continued...