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This kind of research thod would absolutely never appear in human civilization.

Not to ntion whether there are enough materials science experts with sufficient knowledge accumulation and operational experience to participate in the experint; even if there were, the material consumption during the process alone would be unbearable.

Every experint requires the involvent of extrely precise equipnt and consus a large amount of electricity and precious raw materials.

But for Tom, none of this was a problem.

Materials science experts?

I have them, many of them. If a million isn’t enough, I can even produce a hundred million.

Every clone, even those who farm, raise pigs, drive cars, or collect trash, can transform into a materials science expert whenever necessary.

Material consumption? That’s also not an issue. What are all those products, produced by so many factories running at full capacity all day, for?

Are they to ensure every clone lives a good life?

Of course not; they are to support the consumption of scientific experints.

The two major obstacles simply did not exist for Tom. Thus, Tom launched his assault on materials science with theoretically the highest efficiency, and in just over a decade, he continuously experinted, iterated, and optimized, finally finding suitable materials.

It was a type of steel produced by high-pressure forging, with niobium tal as an additive.

With the breakthrough in materials science finally achieved, manufacturing qualified high-speed bogies no longer posed an obstacle for Tom.

At this mont, after decades of continuous research, a qualified high-speed bogie finally lay before Tom.

Its overall structure resembled a hemisphere, with so brackets extending from it, sowhat like an antenna.

Tom placed this antenna on a violently shaking and oscillating test stand.

Although this test stand was constantly shaking, no matter how it shook, thanks to its special shock absorption and stabilization system, only the hemisphere inside its outer shell was shaking, while the outer layer remained stable and motionless.

Not only that, but the brackets on it were also rapidly turning, pointing one mont this way, and the next mont that way.

It looked like tree branches swaying irregularly in a strong wind, but the indicator lights emitted from those brackets showed that this was not an irregular sway, but a conscious manipulation.

Those light beams would always precisely point to the corresponding numbers on the huge screen in front, even though those numbers were extrely small, too small to see clearly even up close with the naked eye, and even though the distance between them was as high as a hundred ters.

Dozens of brackets simultaneously aid rapidly, without any disorder or error.

Watching its performance, Tom finally nodded in satisfaction.

"Everything else is fine, it’s just that the amount of niobium tal used is a bit high.

This stuff is a rare elent. The largest niobium mine on Earth back then only had a few million tons of reserves, and there’s even less here in the Jupiter system.

To manufacture it on a large scale, we still need to look for it on rocky planets and in the asteroid belt.

But it doesn’t matter; in the future, I’ll just build a few mining bases within the solar system."

Now that the high-speed bogie had also been successfully developed, the entire interception system was left with only one final component.

The data processing system.

The data processing system is the brain of the entire interception system.

When the radar captures a target signal, it must first be calculated by the data processing system, which then combines the target’s orbit and heading with its own orbit and heading, as well as the current operating status, orientation, and ship posture of existing defensive weapons, to make a comprehensive decision and issue commands to the bogie. Only then can the bogie direct the appropriate weapon in the appropriate direction, and only then can the electromagnetic cannon and laser cannon fire.

Although the data processing system is important, it is ultimately just a high-performance computer.

And at this mont, Tom had already overco the manufacturing process for the 2 nm chip and could mass-produce it.

The 2 nm chip technology is already fully sufficient to handle this volu of data calculation.

Thus, with the successful developnt of the high-speed bogie, the last obstacle to building a truly "modern" battleship was finally completely removed by Tom.

The decades-long, large-scale scientific and technological research finally yielded phased results, allowing Tom to breathe a slight sigh of relief.

But it was only a slight sigh of relief.

Tom did not forget that Goku AI was constantly waiting for real and effective battlefield data as food.

At this stage, Goku AI can only feed on virtual data in the virtual space simulated by supercomputers.

So...

Tom imdiately made a decision.

Build a real modern battleship!

At this mont, because the relevant technology had just achieved a breakthrough, the relevant production lines were not yet ready.

But it doesn’t matter; under the existing industrial system, customized production can still produce all the relevant parts for this battleship.

Thus, within five days, a total of 16,000 parts factories, including hull factories, engine factories, secondary pressurization module factories, bogie factories, and so on, produced all the parts and transported them to the vacuum assembly workshop.

The assembly workshop maintained an extrely high degree of vacuum, with a material sparsity even higher than that of actual interstellar space.

For example, at a distance of about 5,000 kiloters from Ganyde, even in space where matter is so sparse, there are on average about 10 particles per cubic centiter. But in the vacuum assembly room built by Tom, the average number of particles per cubic centiter is only 3.

In such a pure space, various parts began precise assembly.

During nurous past production and construction projects, Tom had deeply realized a truth.

For industrial products like spaceships, which have an extrely large number of parts, even hundreds of thousands or millions, the production of a single part is not the most difficult; the most difficult part is assembling them together.

This is an extrely complex and systematic task. A slight imperfection could affect the overall performance of the spaceship. A slightly unreasonable wiring could lead to malfunctions.

But fortunately, Tom was already well-versed in this.

Hundreds of clones, assisted by Hestia AI, operated highly precise robotic arms, gradually building the parts from the vacuum chamber into the spaceship fra.

Continuous welding, bonding, tightening, and connecting kept them busy for more than ten days, finally assembling the very first truly modern rcury-class battleship in history.

Looking at this disc-shaped spaceship, dark gray on the outside and about 16 ters in diater, Tom’s heart was filled with joy.

The birth of this spaceship ant that, at least in terms of battleship-related technology, he had completely surpassed the forr human civilization!

You are reading Humanity is missing, luckily I have billions of clones Chapter 117: Forging The Future on novel69. Use the chapter navigation above or below to continue reading the latest translated chapters.
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