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Mechanical exoskeleton technology, for example, is a steel suit similar to Iron Man!

Of course, the Japanese mechanical exoskeleton technology is absolutely impossible to be as good as Iron Man's suit, and it can still be easily done by simply increasing the strength and defense of human beings. Pen? Interesting? Pavilion wWw. ｂiquge。 ｉｎfo

This mechanical exoskeleton can allow ordinary humans to easily lift two-ton items, and their defense power has skyrocketed, ordinary firearms can't penetrate this mechanical exoskeleton at all, even if it's a grenade or a small cannonball, it can't threaten it.

"The mechanical technology of the little devils is really amazing!" Hou Zhong sighed, and then began to think about it in his heart.

This time, it was an accident for them to face off with Little Japan, but after obtaining some information, the high-level Jin family did not hesitate to offend Japan and the United States, and directly invaded the Japanese mainland, wanting to rob some of the alien technology that Japan had obtained.

Among the technologies that the Japanese accidentally obtained, it was not only related to the structural drawings and armor formulas of the spaceship, but now it seems that there must be the mechanical technology of robots in it, and from the perspective of the armor of the divine beast, even biotechnology is worth learning from.

There are also other related technologies, such as the research and development of high-energy batteries, image recognition and processing systems, sensor control systems, location information positioning systems and so on.

Among them, remote communication and search technology are the most critical, and now the Jin family is no longer restricted to transportation, but communication.

The universe is too vast, and now they have encountered such and such problems before they have left the solar system, and if they go out of the solar system, they don't want to be unable to connect. That would be too dangerous in the mysterious universe.

Now just through some simple information. Hou Zhong was deeply aware of the danger in the universe, not to mention anything else. It's just a dragon world and a moon world, and it's not something that ordinary people can survive there.

If there are some technologies that allow ordinary people to quickly have strong strength, it will be a powerful boost whether it is the development of the moon or the occupation of the dragon world in the future.

If the divine beast armor is studied clearly, it is something that can threaten the god-level powerhouse, this kind of thing, used in the high-end combat power of the Jin family, to open up the dragon world and the moon world is the best.

Jin San suspects that the Dragon World is a huge planet. Although it is not known where it is in the universe, it is possible that it is a planet.

Using the Dragon World as a springboard, the Jin family's fleet will go farther and farther, and in the universe, even a medium-sized space carrier needs at least a thousand soldiers to maneuver.

This is still the minimum number of people, if it is fully equipped, even if there are more than 100,000 people, a space carrier can be fitted. If it is a giant like the Sky Fortress, the number of people who need to be urged is even more, and the number of warships of that level is not much with hundreds of thousands of soldiers stationed in the army.

Originally, Jin San occupied the Giant Principality on the moon. The lack of human resources has been alleviated, but he has discovered the world of dragons again, if he wants to conquer that world. You have to use more people.

Now that the Divine Beast Armor has been discovered, there is also a mechanical exoskeleton technology that can be easily used by ordinary people. Naturally, they didn't want to let it go, although Jin San got a lot of resources. But if all those resources are used to allow soldiers to evolve, they are really useless.

Every strong person, not to mention evolving to the god level, just evolving to the ninth order of the Dao Dao, the resources required are huge, let alone evolving in batches.

Anyway, with Jin San's strength now, he hasn't done it yet, so he can only rely on the power of science and technology to enhance their strength, and the strength is strong, and this case has plundered more resources.

Raising war with war is the golden rule pursued by Jin San now, and after understanding the strength of the dragon world, his idea is really determined.

Now the resources produced by the inner world of the moon are a little unable to keep up with his needs, but the dragon world is a more advanced world evolved than the moon world, and the resources there are more abundant, if they can stand there, then the resources for cultivating soldiers will not have to worry.

Maybe a primary god-level mutant beast can give birth to dozens or even hundreds of ninth-order powerhouses, Jin San just accidentally entered a battle of divine beasts, and he obtained great benefits, if he went hunting specifically, the benefits would definitely be greater.

The technology of metal exoskeleton consumes less resources and improves strength quickly, this technology uses mechanical devices to build metal bones and armor on the outside of the human body, so that human beings can obtain more powerful combat effectiveness.

Just looking at the fact that the Japanese have now installed the army, I know that it should not be difficult to produce, since it can be made with the technology of the Japanese, with the current technology of the Jin family, it is not a problem to make it.

On the battlefield, the combat power displayed by the metal exoskeleton is really powerful!

However, the technology of the Jin family is obviously not comparable to the technology of the Japanese, although Hou Zhong can easily see the development potential of the mechanical exoskeleton, but now the Japanese are limited to the lack of energy, and cannot fully play the advantages of the mechanical exoskeleton.

The lack of energy is a serious flaw of those Japanese soldiers now, which makes them not have enough motivation to exert the combat power of the mechanical exoskeleton, so the soldiers of the Jin family equipped with biological armor can easily deal with it.

However, Hou Zhong only communicated with Jin San a little, and the two reached a consensus, and then Hou Zhong issued the latest order, and suddenly the Jin family soldiers, who were originally pressing the Japanese soldiers to fight, began to slow down the pace of attack, and the external performance was as if the energy was about to run out, and the combat power was lost.

The battle on the scene is very sci-fi, but Jin Sanhou Zhong, who watched this battle, has seen something more sci-fi than this, so they quickly analyzed a lot of data.

How strong is a metal exoskeleton? It can be simply expressed with a set of average data!

A normal and healthy soldier can run a hundred meters in a straight line with zero weight, which takes about 10 seconds, but with the addition of a metal exoskeleton, the maximum speed can reach 100 meters per second, that is, the speed of 100 meters can reach less than one second..

And a straight-line distance of 100 meters, the world-class record of human beings, may take more than 9 seconds, and the speed of a soldier equipped with a metal exoskeleton is 100 meters per second. Visually, it's not much different from teleportation.

It's just this speed. It greatly strengthens the combat effectiveness and escape ability of ordinary soldiers.

Field training in an ordinary field army, as a rule, is to carry a weight of 20 kg. Carrying out 50 kilometers of weight-bearing endurance training, this kind of high-intensity training is usually completed, and basically loses its combat effectiveness.

If you add a metal exoskeleton and a weight of 20 kilograms, it is almost the same as playing, and the maximum weight can even reach 1000 kilograms.

In terms of strength, humans who are gifted in strength, such as boxer Tyson. His punches are almost 500 pounds of power, which translates to just over 220 kilograms.

Peter. The strength of Azi's leg sweep reached the level of 836 kilograms, which was a little scary, however, such a strength limit, in front of the metal exoskeleton, was not worth mentioning at all!

A well-trained ordinary soldier. With the metal exoskeleton, it can easily burst out with more than 500 kg of punch power, and can also calmly burst out with more than 1,000 kg of leg sweeping power.

And, with a metal exoskeleton. A well-trained soldier can easily jump more than 10 meters high, which is a vertical jump. That is, standing still and jumping directly.

If it's running and jumping. It can even reach a height of 30 meters, and you must know that the NBA's flyer Jordan has a vertical jump of 98 centimeters. And Weber, who has the most vertical jump in the NBA, is only 120 centimeters.

Through these data, it is easy to see how powerful the metal exoskeleton is!

Unceremoniously said that the soldiers equipped with metal exoskeletons, they are all real-life versions of Superman, and in the case of unarmed attacks, they can easily be a pair of hundreds, or even a pair of thousands.

It's just that these metal exoskeletons equipped by the Japanese have a fatal flaw, and this flaw is the energy problem!

The humanoid shape of the metal exoskeleton is like equipping a set of armor outside the human body, and such a humanoid shape is destined to be unable to use an internal combustion engine.

After all, the efficiency of the internal combustion engine is too low, and it can only be driven by electric energy, and there is a big problem with the use of electric energy, and with the current level of technology in Japan, it is simply impossible to manufacture large-capacity batteries.

Large-capacity batteries, if there are no windfalls, only exist in technological fantasies!

The metal exoskeleton obtained by the Japanese, in its most advanced state, should be similar to the Iron Man movie world of the Iron Suit Suit, the steel monster that relies on the miniature ark reactor for energy.

The so-called Ark reactor, in fact, has another name, called the tokamak device, which is a crazy device that uses a ring container and a spiral magnetic field to form nuclear fusion!

This kind of thing, if it appears in science fiction movies, it doesn't matter if it appears in science fiction movies, but in real life, it's not something that Japanese people can do now.

Therefore, after the Japanese obtained the relevant technology, they made a lot of improvements to adapt to modern technology, but in doing so, the combat power of the metal exoskeleton they made declined very seriously.

Regarding the metal exoskeleton, there is another fatal shortcoming, that is, the software control system, most people on the earth are ordinary people, they do not have a strong mental support, so they can't directly control the metal exoskeleton, of course, the current Japanese have not yet studied digital intelligent life, let alone control the metal exoskeleton through intelligent computers.

Therefore, if their metal exoskeleton wants to run successfully, it is not only about having energy, but also about mechanical design.

The control program can be said to be a more important design than energy, and a good control system can even make up for the defects in the hardware, making it impossible to make metal exoskeletonization possible.

When a soldier wears a metal exoskeleton, he is faster, has more power, jumps higher, has more load force, and so on.

However, these metal exoskeletons of the Japanese have obvious flaws, and their performance is not as powerful as Iron Man, which shows that in terms of control and energy, these metal exoskeletons made by the Japanese still have this huge flaw.

Just a little observation, you can see that the metal exoskeleton of the Japanese currently has two power drive methods.

The first is pneumatic, that is, the way of gas pressure to drive the movement of various mechanical parts.

The pneumatic scheme has some advantages, such as lower body weight and more flexible power output, but the pneumatic scheme also has weaknesses, the most serious of which is the pneumatic pressure problem, the volume of the gas can be highly compressed, which is a considerable disadvantage.

The second drive scheme is hydraulic drive, which is currently the mainstream and is the main research scheme for the study of metal exoskeleton mechanisms, and has a relatively mature technology.

To solve the driving problem, we still have to face the problem of energy reserves, and the metal exoskeleton cannot carry a large amount of energy like airplanes and armored tanks due to the limitations of its appearance.

The humanoid shape is destined to carry only a small amount of energy, whether it is electrical energy or chemical energy.

Through on-site observations, the Japanese have also made great adjustments to the energy system of the metal exoskeleton, and there are several different methods.

The first is a chemical energy composed of liquid hydrogen and liquid oxygen, the calorific value of hydrogen is three times that of gasoline, that is, the same mass of hydrogen produces three times the energy of gasoline, but liquid hydrogen also has a weakness, that is, the density of liquid hydrogen is too low, only 70.8kg/m3.

The second energy solution is the use of high-performance lithium batteries, which is simpler, but due to the limitations of lithium battery materials and technical problems in the process, there will be less energy storage, in short, the combat time will be quite scarce.

The third retrofit method, the most common and the most basic energy solution, uses aircraft-grade gasoline as an energy source.

Although the calorific value of aviation-grade gasoline is not high, the density of aviation-grade gasoline reaches 750kg/m3, and the mass of aviation-grade gasoline is 10.6 times that of liquid hydrogen in the same volume!

Under such a huge mass gap, even if the calorific value of liquid hydrogen is three times that of gasoline, it cannot be compared with the total calorific value of gasoline, which reaches 48,000,000 joules per kilogram of aircraft-grade gasoline, which is equivalent to 3,600,000 joules per kilowatt-hour.

If you don't calculate the energy loss, the energy produced by one kilogram of aviation gasoline is about 13.33 times that of one kilowatt-hour of electricity.

This armor-like armor has a large backpack on the back, making the entire metal exoskeleton look like an extra tumor, which is incongruous no matter how you look at it.

But that is the fuel tank, if the design of the fuel tank is canceled, the entire metal exoskeleton will not be able to operate at all, but with it, the weight has increased a lot, and it also affects the balance of the metal exoskeleton, the speed is also slowed down, and the energy consumption will also increase.

Although this metal exoskeleton has such and such shortcomings, it is undeniable that the metal exoskeleton of the Japanese is about to be transformed and can now be put into practical use. (To be continued.) )