Super Invincible Battleship
Chapter 494 – 494 235 Wave

Chapter 494: Chapter 235 Wave-Resistant Sea Wall_2 Chapter 494: Chapter 235 Wave-Resistant Sea Wall_2 After a large amount of limestone, clay, and gypsum were in place, Yan Fei first collected these materials into the Universal Space in proportion, and then imported a standard cement manufacturing process collected from the Internet by the Auxiliary Brain into the mini-production workshop. He began to produce high-grade cement that was high-intensity and resistant to corrosion by seawater following this manufacturing process.

Once Yan Fei had set the production data for the various cements, he clicked the production button on the mini-production workshop. He found that the mini-production workshop in the Universal Space began to emit a faint white light. Under the influence of a Mysterious Power, the limestone, clay, and gypsum in the Universal Space began to fly into the mini-production workshop in a certain ratio.

As these raw materials entered the mini-production workshop, they started to be turned into products, following the production process set by Yan Fei. The mini-production workshop produced at an incredibly fast speed. Just 5 minutes later, high-grade cement produced according to Yan Fei's requirements began to appear outside the workshop. After 30 minutes, the entire 20,000 tons of limestone, clay, and gypsum in the Universal Space had been transformed into cement products, piling up outside the mini-production workshop. Compared to the cement available on the market, these products didn't have packaging bags, yet they were of superior quality. However, there was still a certain amount of consumption during the cement production, and the resulting cement weighed only 15,000 tons.

The cement manufacturing process was quite simple–it merely involved crushing the limestone and clay, mixing and finely grinding them into raw meal, and then calcining them at high temperatures into clinker, which was finally ground into fine cement with the right amount of gypsum. Therefore, not only was the production process incredibly fast, but the consumption of Energy Points was also minimal, costing only 5 Energy Points per ton of raw material. This production run consumed 100,000 Energy Points from the Drone. However, this batch of cement production already employed a primary manufacturing process, so its Energy Point consumption was five times higher than the simple gold smelting conducted previously.

Yan Fei transferred the 15,000 tons of cement products from the Universal Space and stored them in the Super Large Warehouse. He then collected the other limestone, clay, and gypsum raw materials into the Universal Space for production in the mini-production workshop. After another 30 minutes, Yan Fei harvested another 15,000 tons of high-grade cement.

Yan Fei continued to produce cement in this warehouse. Two days later, the mini-production workshop had produced 1.44 million tons of cement. With the market price for this high-grade cement, Yan Fei's two days of work had created products worth a total of 2.16 billion, saving a substantial amount of capital.

The mini-production workshop used 4.8 million Energy Points to produce cement each day. Compared to the Drone's Energy Points, which had reached 20 million, this consumption was virtually negligible. Even if the mini-production workshop operated continuously, there would be no shortage of Energy Points. This was because, after 24 hours, the Drone's Energy Points would automatically refresh, providing an endless supply of production power to the mini-production workshop.

After the 1.44 million tons of cement had been produced, the raw materials–limestone, clay, and gypsum–were also used up. Even if trucks with a carrying capacity of fifty tons kept transporting raw materials into the Warehouse, it wouldn't be enough to keep up with the mini-production workshop's rapid production.

With no other choice, after producing the last batch of cement products, the mini-production workshop began to Change the type of product it was making. It would use these cement products to produce steel-reinforced concrete components necessary for the wave-resistant sea wall. To make the Yellow Sand Dam of Misty Island as solid as a rock, ensuring that it would never breach under any circumstances, Yan Fei decided to go all out and reinforce the existing Yellow Sand Dam, where these steel-reinforced concrete components were crucial. To withstand the impact of typhoons and huge waves and protect the Yellow Sand Dam, Yan Fei decided to have the mini-production workshop produce an extremely large Prefabricated Component Model.

This steel-reinforced concrete Prefabricated Component Model would be in the shape of an inverted T, with a height of 10 meters, and the thickness of the upper side being 2 meters; the bottom brace, meant to keep the steel-reinforced concrete component stable, would be 1 meter thick and 10 meters long; each steel-reinforced concrete Prefabricated Component Model would be 30 meters in length.

In Yan Fei's plan, he would place these steel-reinforced concrete Prefabricated Component Models inside the Yellow Sand Dam. They would be set on the hard reef, with the braces that served as stabilizers fixed to the ground. Then, the protruding braces would be filled with Yellow Sand, ensuring that the steel-reinforced concrete Prefabricated Component Model would be secured in place when subjected to forces from multiple sides.

According to calculations by the Auxiliary Brain, the weight of each such steel-reinforced concrete Prefabricated Component Model would exceed 4,000 tons. However, with these steel-reinforced concrete Prefabricated Component Models securing the Yellow Sand Dam, even if it were hit by typhoons and towering waves, the sheer mass and structural support would keep the Yellow Sand Dam immobile, and buildings constructed on the protected New Land would remain unscathed.

The Auxiliary Brain had already designed the most mechanically efficient Prefabricated Component Model according to Yan Fei's requirements, and then input the data and manufacturing process of this steel-reinforced concrete Prefabricated Component Model into the mini-production workshop to begin production. The production process for this type of steel-reinforced concrete Prefabricated Component Model was extremely simple; its technical content was completely incomparable to the technology and process of cement production and was even less complex than gold melting.