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Most of the various materials stored in the database of Iron Battlestar are from the ancient super technological civilization of the Meteorite Star Sea.

This powerful civilization was born and bred in the Meteorite Star Sea, and their science and technology were also slowly developed based on the various resources existing in the Meteorite Star Sea, which is naturally more applicable to the earth civilization that is now mainly developed in the Meteorite Star Sea.

Even if the resources required for many technical materials are not in the existing remnant areas of the Meteorite Star Sea, the Earth civilization can also find the source of relevant resources, which can be re-obtained through the exploration of the meteorite belt area in the future.

Therefore, the importance of this batch of technical data is really not an exaggeration for the importance of the earth's civilization.

Although the ancient civilization and the earth civilization are not in the same line, and many of the ancient civilizations in the scientific and technological data of the earth civilization are not used, but at least in the related fields of basic materials, there are always a series of commonalities between civilizations, and the technical gains of these materials alone are enough to benefit the earth civilization a lot.

Take superconducting alloys as an example, among the technical data found by the Earth civilization in the steel battle star this time, there is a synthesis and production process of this specification of super alloys.

Although compared with the technical maturity of the Canglan civilization in this product, the super alloy production technology obtained by the steel battle star is far from the same in all aspects, whether it is in terms of production cost, technical simplicity, production quality, and production scale, it is completely incomparable with the technical route of the Canglan civilization.

However, at least after borrowing this set of technical data obtained from the steel battle star, the earth civilization has been able to confirm after a preliminary technical analysis that after a period of hard work, the earth civilization can make a breakthrough in this project, and then produce qualified superconducting alloys.

Once you have the production capacity of this super alloy, this kind of difference between existence and supreme is very big, at least it is enough to make the earth's civilization in many scientific research fields a little relieved.

You should know that although the most important application field of this super alloy is in wormhole technology, but in addition to this application field, in many other scientific and technological fields, this important alloy resources are also extremely valuable, after the application of this alloy, many important equipment can significantly improve its performance and life, in some cutting-edge fields, after the application of this new alloy, can also make a lot of major breakthroughs and progress.

Just the breakthrough of this super alloy project is enough to drive the research and development progress of the earth's civilization in hundreds of other cutting-edge projects.

What's more, the resources related to this superconducting alloy discovered by the Earth civilization in the steel battle star this time are not just as simple as technical data.

In addition to a full set of alloy production processes and production processes, a large number of important raw materials and production equipment closely related to the production of this super alloy are also stored in the core resource reserve within Steel Battlestar.

When ancient civilizations produced this superconducting alloy, they also needed to apply biotechnology to the extraction and purification, and dozens of important strains related to them came from a large number of areas of the meteorite star sea, a large part of which were already destroyed areas.

The time and effort required to re-extract these specimens is enormous, and it is difficult to say whether or not these resources can be re-found and obtained.

Fortunately, because the maintenance and maintenance of many core areas of the Iron Battlestar itself also need to make use of this alloy resource, there are also all relevant strains in its core resource reserve.

Iron Battlestar had been cultivating and continuing these strains for millions of years in the previous sleeping process, and now that the Earth civilization had obtained these precious resources, it was really a great effort.

Similar to this super superconducting alloy, the earth civilization does not have the technical data of new materials, the earth civilization has found a total of more than 10,000 kinds of steel war stars, with related important production materials, production equipment of more than 1,000 kinds of materials, the vast majority of the remaining new materials in the existing meteorite star sea area can find relevant production resources, so they also have practical use value.

It is conceivable that the acquisition of these new materials alone can greatly expand the material library of the earth's civilization, and then add a huge impetus to the development of the earth's civilization.

The discovery of these new materials and technologies is even more than the value of the steel battle star itself for the long-term value of the earth's civilization, and the benefits it brings to the earth's civilization are incomparably far-reaching. After obtaining these huge amounts of technical data, the scientists of the earth civilization were simply ecstatic, and they fell directly into the sleepless sorting work

With the sorting and sorting out of the internal information of these Iron Battlestars, more valuable things are constantly being discovered and unearthed.

In addition to these direct technical data, in some messy and trivial old databases, the Earth civilization has also discovered a rough resource map database of the entire meteorite star sea millions of years ago when it was still intact.

Although this rough resource map database is only unclassified information, and many scientific research, military, and administrative units and places related to the ancient cosmic civilization are not available, the information on valuable mineral resources, biological resources, strategic material reserves, etc., which are available in most areas of the entire meteorite star sea, is readily available, and the data of various proven important resource areas in the entire meteorite star sea are intact.

Although a lot of the information in this database is outdated, effective, and useless after millions of years, there are still many valuable resources that still exist.

In those ruined areas that have been destroyed and have been reduced to meteorite star belts, although the earth civilization can no longer use the information of this resource map to a large extent, in the existing meteorite star sea area, the earth civilization can undoubtedly obtain great benefits.

After all, although a considerable amount of time has passed, at least in the field of minerals and biological resources, the earth's civilization can still reap a lot of benefits.

The technological level of the ancient cosmic-level scientific and technological civilization is undoubtedly beyond the reach of many existing local interstellar civilizations in the Meteorite Star Sea.

Therefore, even many resources that have been explored by ancient civilizations millions of years ago are still unknown to many native civilizations.

Because of the different levels of science and technology, civilizations at different levels of science and technology have considerable differences in their ability to utilize resources.

Even if the agrarian civilization discovers coal, it can only use some open-pit coal resources, and even if they have all the needs for coal resources, they will not think of digging those deep underground coal mines, let alone drilling oil deposits thousands of meters underground, and excavating various underground deposits hundreds of thousands of meters underground.

However, these valuable resources required for industrial development will never be let go by capable industrial civilization, and will regard them as important and valuable resources.

The same is true of the ancient civilizations and the interstellar civilizations of the meteorite star sea.

Many of the truly valuable mineral deposits are found in complex and even extreme environments because of their formation mechanism.

Among the many resource exploration projects of ancient civilizations, many mineral resources in extremely dangerous areas have been clearly explored and listed as potential resource projects to be developed, but the location of these resources is also extremely dangerous and unsuitable for development in the eyes of many interstellar civilizations today, so the probability of these valuable resources being preserved is naturally quite high.

Even after millions of years, it is believed that the vast majority of these mineral resources are still intact.

For example, those special mineral deposits born in the supergravity gravitational field such as neutron stars and white dwarfs are not at all equipped to exploit even if they want to use them.

Even those cherished mineral deposits with relatively simple birth conditions often exist in the environment of tens of thousands of meters below the ground of large planets, and the difficulty of this kind of minerals is quite huge, and many interstellar civilizations do not even have exploration technology, let alone mining.

In fact, most of the interstellar civilizations in the meteorite star sea have placed the exploration of mineral development in areas such as meteorite belts and asteroid belts, and most of the local interstellar civilizations have been placed in a relatively unimportant position for the use of deep underground resources.

Because compared with the difficulty of mining these asteroid mining resources, the mineral resources inside the large planets are much greater in terms of mining difficulty and transportation consumption, and the resources inside the planet are actually available in space mining in most cases.

Therefore, interstellar civilizations with strong starry sky operation capabilities will naturally not be reluctant to go far, and are too interested in the mining resources inside those mineral planets.

Generally, even if those mineral planets are developed, the mineral deposits that interstellar civilizations are more interested in are within a kilometer underground range. The difficulty and cost of the development of this part of the mineral deposits are relatively profitable for the interstellar civilization, and the deeper mineral deposits are most likely of uninterest to the interstellar civilization.

Even if there are mineral resources within a kilometer underground, most of the mining stars that interstellar civilizations are willing to mine are large solid-state planets with a more suitable environment.

If the environment on the surface of the mining star is too harsh, the temperature is too high or too low, then such a mining star is even more unattractive to the interstellar civilization of the meteorite star sea, and no civilization is willing to develop such a mining star at all.

After all, for the many interstellar civilizations of the Meteorite Star Sea, the resources of the Meteorite Star Sea are extremely rich, and there is no shortage of various mineral resources.

Although there are many interstellar civilizations in the meteorite star sea, the number of civilizations here is still far from enough for the huge number of resources here, just those meteorite star belts and space mines that exist in large quantities are enough to meet the needs of all interstellar civilizations, and the amount of space resources possessed by each interstellar civilization greatly exceeds their needs.

However, those high-end cherished minerals that are really cherished enough and have an important role and value in some high-end scientific and technological fields are often born in such a complex and extreme environment. Most native interstellar civilizations are not even aware of the importance of these minerals and are incapable of exploiting them.

Therefore, those cosmic-level civilizations are interested, many complex mineral deposits with strange properties and extremely difficult smelting, no one cares about them in the current meteorite star sea, even after millions of years, these mineral resources are well preserved.

In addition to the difficulty of mining, on the other hand, the reason why this kind of minerals are not valued by the local interstellar civilization is also that the development and utilization of these minerals are too difficult.

For example, some mineral resources that are more sensitive and explosive in nature, if you don't pay attention to it, it is easy to cause an explosion, and the smelting furnaces of those interstellar civilizations are about to be blown up.

What's more, even if some mineral resources are smelted and purified, in fact, interstellar-level civilizations often don't know which fields they should be used in, and their scientific and technological level is not up to them, and there is no suitable application field to consume these resources.

For the earth civilization, these cherished high-end mineral resources, whether it is mining, smelting, and application, these are not a problem, and the earth civilization has the corresponding strength, but some specific exploration matters of cherished mineral deposits are extremely difficult even for the earth civilization.

After all, although most of these precious mineral deposits are born in some extremely dangerous and complex environments, this does not mean that all dangerous and complex environments have these precious minerals.

Since the name is cherished minerals, naturally their reserves are not only very few, and the probability of the existence of minerals is also very small, many times the exploration of 10,000 dangerous areas often can not find a suitable minerals, many times the scientists of the earth civilization will be seriously lacking in raw materials when conducting some high-end experiments, most of this is because the cost of exploration is too great, and the difficulty is also very high.