Doomsday Bunker Upgrade Chapter 754: Verifier of the carrier platform

Among the Nantianmen plans, the most difficult thing to accomplish is of course the large-scale aerospace strategic carrier platform.

After all, it is more than 200 meters long and 600 meters wide, which is equivalent to the huge size of four aircraft carriers. Even if there is an anti-gravity generator, it will not be a problem to fly. If you want to build such a huge thing, it is still right. A severe test of human industrial manufacturing capacity, materials science and structure.

Building an aircraft carrier is already a huge test of a country's overall industrial strength.

Just like the joke circulating on the Internet, it requires "the State Planning Commission, the Military Industry Commission, nine defense industry ministries, 600 related majors, and 8,000 supporting manufacturers", which is not a job that can be completed by a shipyard , what is needed is a strong country with strong national strength.

And it is almost impossible to build an aerospace carrier platform that is several times larger than an aircraft carrier.

This is not only a technical problem, but also a problem of industrial production capacity.

Let's not mention anything else, just the hundreds of thousands of tons of qualified high-performance steel produced from this thing, for many small countries, even if they sell iron, they can't make it.

Not to mention that the materials used in some places are far rarer and more expensive than high-performance steels. Maybe some small countries have sold them throughout the country, and these materials may not be valuable.

However, this time, all the countries that exist in human beings are involved in the construction this time, so there is no problem with the materials.

Especially Chen Xin's previous efforts in Europe, the mining and smelting of various mineral resources, and the synthesis of high-performance materials are not too big a problem.

Those mining sub-bases across Europe provide ample raw materials for the construction of aircraft carrier platforms.

But there are only materials, and these materials need to be processed into parts.

You must know that the carrier platform is more than 200 meters long and more than 600 meters wide. In order to ensure sufficient structural strength, the size of many parts is also amazingly large.

For example, the main support structure of the carrier platform, some components are even more than 100 meters long!

Nothing of this magnitude has ever been made in the history of mankind, because nothing requires such a large part.

Even if it was necessary to use hundreds of meters long components in the past, it would be manufactured by splicing multiple parts instead of manufacturing such a huge part as a whole.

If it weren't for 3D printing technology, I'm afraid it would still be necessary to study how to make such a large part.

And even if there is 3D printing technology, to manufacture such a large component, it is still necessary to redesign the printing equipment, and the existing printing equipment is difficult to complete its manufacturing work.

What's more, even if it is manufactured, how to ensure that the structural strength of such a huge part meets the requirements is a headache for the project team.

And all of this needs to be coordinated by the person in charge of Chen Xin, which will test his ability even more.

If it wasn't for Xiyao, an artificial intelligence, to assist him and help him deal with a lot of trivial matters, I'm afraid he would really be exhausted.

Fortunately, the country also knew the difficulties of this project and deployed a large number of experienced administrative and technical personnel.

These people may not be of much help in perfecting the theoretical foundation, but for the actual construction of the aircraft platform, these people can play a great role.

Experienced administrative personnel can coordinate the cooperation and communication between various departments, making the collaboration between various departments smoother, and can also solve "small problems" in the mass production process.

Technical personnel can better complete the production and manufacturing work. Some problems that may not be realized or found on the drawings may be found and dealt with by the on-site technicians during the production and manufacturing process.

But even with these conditions, it is still not an easy task to build a large-scale aerospace strategic carrier platform.

In order to avoid waste and verify the technology, Chen Xin decided to build a small-scale carrier platform for technical verification first, and also to accumulate experience for the real design and construction of a large-scale aerospace strategic carrier platform.

This plan was quickly recognized and supported by all parties, and everyone felt that it was more reliable to do a technical verification first than to directly start building a big guy.

After all, those large parts of more than 100 meters are really difficult to manufacture, and they do not have any relevant experience.

If you can build a smaller one first, verify whether the structural design is reasonable, or find the possibility of changing the large parts into small parts, it is very beneficial for the construction of the entire aerospace vehicle platform of.

So under the circumstance that each project team has almost perfected the basic theory, a small carrier platform that has been reduced by nearly ten times was built.

This aircraft carrier platform is not a scaled-down version of the larger aircraft carrier platform expected to be built. Although similar in structure, its drawings have been carefully designed.

And this carrier platform also has the same performance indicators as large carrier platforms, and can also launch drones for combat.

It's just that the drones mounted on this small aircraft platform are not aerospace aircraft that can basically enter the design and finalization stage, but some specially designed small drones.

This small carrier platform is only more than 20 meters long and 60 meters wide, and it looks like a passenger plane with very long wings.

The main part of the fuselage is the crew compartment and control center for people, as well as a drone maintenance workshop specially prepared for the carrier platform, and on both sides of the fuselage are two drone launch tubes.

This is a new technology specially developed for the aerospace carrier platform. It can quickly launch UAVs at high altitudes, and perform recovery and maintenance. It is an important basis for the formation of the aircraft carrier platform.

As for the huge wings whose wingspan has completely exceeded the design of ordinary aircraft, this is one of the focuses of this technical verification.

Because of the use of large-scale aerospace strategic aircraft platforms, the design of such a large wingspan is in line with its positioning, but the design of such a large wingspan is also a torture for the structure and materials of the wings~IndoMTL .com~ After all, we all know that longer things break more easily, and the same goes for wings.

It is not an easy task to make it long and strong enough to meet the needs of aircraft flying.

Fortunately, the entire Nantianmen Project has gathered the world's top scientists and scientific research teams, and a wing with a wingspan of more than 60 meters is not difficult for them.

As for the energy and power of this small carrier platform, it is relatively simple.

A small nuclear reactor is installed on the carrier platform, along with anti-gravity generators and shielding devices, providing it with abundant energy and making it easier to ascend to high altitudes. Ascending way, and enough safety protection.

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