Start sweeping the universe by rubbing the CPU with your hands.

Chapter 203: Use your subjective initiative
At this moment, the newly expanded area of ​​the Jade God Base is already lined with factories.The wide roads and air passages are filled with heavy-duty trains and robot troops shuttling back and forth.

The energy from the large-scale nuclear fusion power plant supports the operation of this industrial area. The mine provides a variety of resources. In the foundry, the machinery roars all day long, day and night.

With the cooperation of more than 100 million robots and at least tens of millions of smart devices, on this day, a thin special alloy steel plate with a thickness of about 0.3 mm was finally produced.

It was immediately sent to the laboratory and underwent a series of tensile, bending, extrusion, high temperature, low temperature, and corrosion tests to determine its performance.

When the final result appeared, Han Yang immediately became energetic.

"After such a long period of research and development and testing, the most important component in building the outer shell of the spacecraft has finally been created."

Although this layer of steel plate is only 0.3 mm thick and can even be called iron sheet, its material properties are extremely superior.

Not only can it maintain its performance in extremely low and high temperature environments, it cannot be broken even if it is blasted with a machine gun.Some less powerful electromagnetic gun projectiles cannot penetrate, and their own weight is extremely low, which will not add much weight to the spacecraft.

It is one of the most important materials that make up the outer shell of the spacecraft.

After this steel plate, Han Yang took some special fibers, anti-radiation layers, anti-interference layers, etc., overlapped them with multiple layers of this steel plate, and fused them through a special process. As a whole, a plate with a total thickness of about three centimeters is finally formed.

After conducting tests on radiation resistance, anti-interference, and temperature again, Han Yang finally confirmed that he had fully mastered the manufacturing technology of spacecraft shell materials.

Although it is not too advanced and not as good as the Eta people, it is still a good start.And... at this stage, it is completely sufficient.

Even if it's not as good as the Eta people, it still has better performance than the shell of a civilian spaceship, right?I haven't seen that the resistance army used civilian spaceships to fight smoothly before. Now that the performance has been improved again, shouldn't the combat effectiveness be stronger?
"Very good, let's mass produce it!"

The precision machinery foundry that had been prepared for a long time immediately started operating, mass-producing related machinery according to the equipment performance and standards tested previously.

Once the machinery is produced, it is immediately transported away by the load-bearing robot. After a series of smooth operations, it is installed in the factory that has been prepared in advance.

After some debugging, production can start immediately.

Special steel plates, special fiber layers, radiation protection layers, anti-penetration layers, high temperature resistance layers, etc. Each layer of material is produced by one or several specialized factories.

After that, these materials will be sent to the assembly plant to be assembled into the final product: a plate about 3 centimeters thick, two meters long and one meter wide.

In order to solve the problem of the spacecraft shell being too large for transportation, Han Yang creatively developed a modular shell solution here.

This kind of piece-by-piece plate has interfaces reserved around each piece. Through a specially developed cold welding device, it can be easily put together with other steel plates to finally form a complete spacecraft shell device without too much performance. loss.

Want a larger spacecraft shell?Then put together more boards.Want something smaller?Then less.In short, you can come however you want according to your own needs.

In addition to the most important spacecraft shell material, Han Yang has also built many other production lines.

For example, air circulation system parts production line, cooling system production line, communication module, electronic control module, intelligent module production line, etc.In short, apart from the fact that the technology content in a spaceship is too high, there are things Han Yang cannot build at this stage, such as small and efficient nuclear fusion devices, small high-speed ion thrusters, and over-distance communication equipment. Han Yang All can be built, and all adopt a modular design.

To use a simple analogy, he is using the thinking of building blocks to build a spaceship.

I will standardize and modularize most of the parts that make up a spacecraft. In the future, after these parts are sent to the resistance, only some specially trained engineers can assemble them like building blocks.

I've already solved the most difficult technical part, don't tell me you can't even assemble it yourself.If you really don't know how, then your organization has no development prospects. I don't want to care about it. You can just fend for yourself.

As for what kind of spacecraft to assemble, how much performance is required, and how large the assembly is, it all depends on you.

You can do whatever you want, I don't care, I only provide the raw materials for assembling the spaceship.

As for the consumables needed to maintain the operation of a spacecraft, such as detergents and coolants, Han Yang has fully mastered the manufacturing methods after years of research and development, and manufactured them together with the spacecraft parts.

Are you kidding me? I can’t make a small high-efficiency nuclear fusion device. I can’t make a small high-speed ion thruster. I can’t make some cleaning agents and coolants?

Who do you look down on?
As for the equipment that he couldn't make himself, Han Yang also thoughtfully made an adaptation plan for the civilian version and provided common installation tutorials for the civilian version.

Han Yang's plan is to let the rebels find their own way to obtain it from the solar system.

Smuggling a complete spaceship is strictly regulated and difficult, but smuggling a small nuclear fusion device and a small ion thruster is not that difficult, right?

If it doesn't work, you can find a way to collect old goods and modify them yourself.

The solutions are all thought up by people, Han Yang will not do it all by himself.Once the primary problem is solved, you can use your own initiative to find solutions to the remaining problems.

Han Yang adopted this method and fully exerted his industrial capabilities to manufacture these spacecraft modules at a jaw-dropping speed.

As soon as the Hope [-] spacecraft arrived, it was immediately loaded onto the ship and sent to the inner solar system.

It is hoped that the No. 15 spacecraft can carry 50 tons when fully loaded.Based on the mass of a standard small civilian spacecraft of [-] tons, it is hoped that the No. [-] spacecraft can transport up to [-] small spacecrafts back in this trip.

After the Hope 12 spacecraft, there will be the [-]th, [-]th, and [-]th spacecraft, all the way to NO.[-].

At this stage, Han Yang already owns a total of 12 cargo spacecraft, traveling non-stop to and from Jade and the inner solar system.

Hope that the No. [-] spaceship will leave with its full load. On the Jade God, Han Yang's crazy production has not stopped.

In the warehouse, the stock of spacecraft parts is increasing rapidly, and in space, Hope No. [-] is coming.

(End of this chapter)