Vol 22 Chapter 534: Storm the base entrance


Boom ... Boom ... Boom ...
With the sound of a huge crash, the entrance gate of the underground base is rapidly deforming at a speed visible to the naked eye, cracks are constantly appearing on the surrounding walls, and the edge of the door frame is obviously unable to support it. When entering the wall, the thick fixed anchors of the arms were all ripped from the rocks. According to this progress, the door will be knocked open for tens of seconds at most. Of course, it wasn't because the door was scared that the people inside the door were knocked open, but because the siege hammer was not the one that hit the door, nor was it a large machine, but only one person.
I just stood before the steel gate, raised my arms above my head, and slammed forward on the gate. The all-steel door, which was enough for two tanks to pass side by side, was sunken inward again under my blow, and the anchor points on the wall were pulled out a large piece.
"Hilda alloy, it really deserves its reputation." I couldn't help but praise when I looked at the heavily deformed door. The reason why this thing can be carried until now is because of this alloy.
In fact, this door is not a complete steel plate, but a composite door. This gate is actually divided into seven layers of materials, of which the inner and outer sides are made of pure copper instead of steel, and the reason why copper is not used is because copper is softer. The door itself is prepared to fight nuclear explosions. When a nuclear explosion occurs, the pure copper door will melt due to the high temperature outside, and then the inlet is completely sealed directly. This is equivalent to a self-sealing technology. Of course, it takes a bit of effort to open the door, but copper is not too hard, and it can be easily cut with a cutting machine.
In addition to the copper layer, there are many other materials in this door, but there is only one material that really made this door carry so many attacks, and that is the Hilda alloy I just said. This gadget is also black technology. Proper alien technology is the only technology that can be fully understood and applied by the earth's science and technology system. The hardness of this thing is not too exaggerated, at least there are still many things on earth that win more than this thing. At least my inner bones are much stronger than this Hilda alloy. However, the real strength of Hilda alloy is not hardness. It's its anti-energy properties.
Americans have a very hot comic hero system, which was later remake into many movies and TV series, and produced a bunch of surrounding projects. Anyway, it is a very profitable project.
There is a fictional metal in the comic system called "shock gold" and also called "Edman alloy". Anyway, the setting of this thing in that system is a kind of solid that once formed, there is no way. Destroyed, and a metamorphosis that can reflect all energy exists. It can be said that this thing is basically invincible, because there is no way to harm this metal, and its physical characteristics are almost eternal.
of course. It ’s a comic and movie script setting, and this Hilda alloy is not so exaggerated. At least the hardness of this thing has not reached the point where it can't be destroyed. of.
The real strength of Hilda alloy is not its hardness, but its energy characteristics.
Hilda alloys covalently exist like most metals, but unlike ordinary metals, the surface atoms and electrons of Hilda alloys become extremely unstable after being stimulated by energy.
Metals can conduct electricity because the covalently bonded electrons in the metals are extremely unstable. These electrons can easily exchange and flow between metals, which is why metals can conduct electricity. Because electrons are free to move between the metals that are connected together.
Hilda alloy has similar characteristics, but it is not only the electron pair that can flow, but even the internal protons and even neutrons are unstable. When Hilda is excited by external energy. Its protons and neutrons can flow with electrons. So what effect does this phenomenon bring? The answer is that this phenomenon will cause Hilda alloy to have ultra-high energy transferability, regardless of temperature energy or other energy, as long as it is energy, it can almost transfer at high speed.
What effect can energy transfer at high speed? The answer is dispersion.
For a piece of non-conductive rubber, if there is ultra-high voltage electricity passing through this rubber plate, the phenomenon that occurs is that the position of the rubber plate that is penetrated by the current will be directly carbonized. Similarly, if a high temperature and strong beam is used to irradiate a felt with poor temperature transmission capability, what is the final result? The answer is that the irradiated position will be gradually burnt, and finally burned or directly pulverized by carbonization. This is the result of a poor flow of energy. Because energy is highly concentrated, the structure of matter itself is destroyed. The object was persecuted.
But if the other way around. What is the energy transmission capacity of an object? Still use electricity and light and heat to test.
The previous high-voltage electricity is still used, but what happens when the material between the electrodes is replaced by an iron plate? The answer is nothing.
After the ultra-high voltage current hits the object, it will heat the object, and then change the material. The rubber plate is a carbonized hole due to local heating. However, after the metal plate is hit by the current, the current does not directly pass through the point through the metal plate, but will quickly disperse and pass along the entire metal plate, and then return to the opposite electrode. The current is dispersed in this project, so unless the current is strong enough to heat the entire metal plate to the extent that it will cause damage to the metal plate, it will not have any effect on the metal plate. This is because metal plates can conduct electricity at high speed.
In the same way, the situation of the high heat rays is the same. If a strong beam is used to irradiate an object, the temperature of the irradiated location will of course increase, which is basic common sense. Because the thermal conductivity of the felt is bad, the heat can not be dissipated in the place where it is irradiated, and it will ignite the felt when it reaches the ignition point. However, if you change to a substance with good thermal conductivity, it is better to say a large piece of magnesium.
Magnesium is more flammable in the air than felt, but it is a metal in itself, and its thermal conductivity is better than felt. I don't know how many times. Similarly, before using the light beam that ignites the felt, as long as the ambient temperature is not high, the huge magnesium block can quickly dissipate heat, and the temperature will be quickly dispersed and passed to the surrounding air. The temperature of the place where the magnesium block itself is irradiated does not rise too much, at least not so easily.
After understanding these comparative tests, the impact can be thought of. The biggest feature of high energy transfer materials is that they can protect against energy shocks. It can quickly transfer energy to all parts of itself, so it is equal to sharing the pressure. Although it may still be hurt. But just like the principle of breaking one chopstick at a time and breaking a bundle of chopsticks at a time, making a hole in an object and completely destroying the object, of course, it is easier to open a hole, and the larger the object, This advantage becomes more obvious.
If the front door only uses steel, even if the thickness is doubled, I can open a hole in one minute because my power armor not only has a high-frequency vibrating blade, such an antiquated thing. What's more important is that I still have several high-power lasers. Although the range is very problematic in the atmospheric environment, when the distance is close, when the cutting machine is used, it is definitely an effect to pull out. Anyway, I usually use this gadget to cut a steel bar. Everything is simple.
However, these two weapons were completely destroyed when they encountered this Hilda alloy. It goes without saying that the Hilda alloy is not destroyed by the laser, but the power of this laser on my body is not high enough, and it is definitely no problem with ordinary metals, but Hilda alloy is not in this range because it dissipates heat too much. almost. There is no way to cut it.
The high-frequency vibration blade is even more rude. Hilda alloy's ability to absorb and transfer kinetic energy is also exaggerated. Cutting Hilda alloy with this stuff is estimated that my sword may not be able to open the door if it is used up.
It is because the second layer of protection of this door is Hilda alloy, so all my tricks cannot be used. Had to hit the door. Fortunately, although Hilda alloy also has the characteristics of absorbing impact forces and dispersing them, this aspect has not reached the point of being against the sky. What can be dispersed is only a small part, and most of the forces still act on the structure behind. Up, otherwise the gate is really invincible.
Although it took a bit of effort, after a few dozen seconds of tossing, the door was almost unsustainable.
Raising my hand and slamming it on the door again, the heavily deformed door suddenly made a different sound, and a large area of ​​collapse accompanied by a cracking sound on the surrounding concrete wall. The upper left corner of the gate was pulled out of the wall by force, and a lot of concrete blocks were still hanging on the steel bars. A thick layer of dust was piled on the ground.
Looking at the results this time, I moved a little to the left with satisfaction, and then hit it again. Boom ... accompanied by this fierce impact. The door finally couldn't hold it. The entire left half was detached from the wall paper together with the door frame. After the large area of ​​the surrounding concrete cracked, it could not provide any support for the door. Although the door was still hanging there, it could be seen by the discerning eye. This thing is useless.
I did not continue to hit the door, but walked over to hold the edge of the door with both hands and began to push in. With a creak of metal twisting, the lower left corner of the door was just twisted into the door and I listened. With a bang inside, I suddenly felt a pain in my calf, and the whole person was blown away instantly, and I slammed in the ground without knowing how many roots.
"Your sister ... how can there be war-proof guns on this kind of ground!"
Because of the characteristics of Hilda alloy, this thing is an excellent signal shielding material, so I do n’t know what ’s going on inside the door. As a result, I just opened a corner under the door, and the other party exposed directly to me. A shot came from his left leg.
Because of the short distance, the shell was almost directly fired, and it was right in the middle of my left calf facing the bone. If it is a human, no, even an elephant, this cannon is definitely flying out of the calf. But the strength of my body plus the protection of the power armor, this gun failed to penetrate my power armor leg armor, but just wiped a trace of my power armor calf, but although the shell did not penetrate My legs, but the huge kinetic energy does not disappear. You can imagine what would happen if your legs were pushed back suddenly by a huge force. At that time, the whole person was spinning in the same place instantly. After the landing, the pain was okay. I felt a little acid in my stomach. Just now, I made at least twenty revolutions in the air. This centrifugal force is generally estimated to burst the blood vessels directly.
I just got up on the ground, and suddenly I heard a bang inside. A cannonball with an orange light flashed on the edge of my left hand, and a large groove was rubbed on the ground, scaring me to shrink my hand. . "I depend. It's not over yet, right?" Fortunately, the opponent didn't hit this time. After all, the angle is not good. The position of my palm support is only a trace under the door. So it's hard to aim.
Seeing this situation, I did not twist the door, but went directly to the right side of the door facing the wall, just a few punches to break the concrete near the anchor. Then he hit the door on the right a few more times. Because the concrete was first broken in one step, this time it took only two times to completely pull the right side of the door out of the wall, and then the whole door slid into the base for a full five or six meters before banging. He slammed on the ground and continued to slide for more than two meters before stopping completely.
The people inside the gate had been waiting for the gate to fall early, so there was no hesitation. When the smoke fell when the gate was down, I scanned a large-caliber anti-tank gun inside. With the flash of the muzzle flame, the 120mm anti-tank gun fired a sub-caliber rear shell stabilizing shell-piercing armor-piercing projectile, and the projectile of this projectile was actually Hilda alloy. Although I don't know whether they wrapped Hilda alloy with armor-piercing projectiles or this armor-piercing projectile is entirely Hilda alloy, I can't control it with electromagnetic force anyway. Because Hilda alloy shields me from electromagnetic control.
According to my estimation, there should be only one outer layer of Hilda alloy, and the inner one should be some kind of super-hard high-density metal or alloy, because Hilda alloy itself is not suitable for shells. Its energy transfer characteristics can increase defense and reduce impact, so it is not appropriate to use Hilda alloy for shells. This is estimated that the ordinary shelled piercing projectile is temporarily plated with a layer of Hilda alloy, and it is obviously designed for us.
Without this layer of Hilda alloy, I could use electromagnetic force to redirect the shell. It takes a lot of electromagnetic force to block a projectile of this speed, but it is very simple to get it off the flight track. Unfortunately, with this layer of Hilda alloy, although I can still use electromagnetic force to sense and control this projectile, the force is very small. The maximum force I can exert on this shell is not as heavy as the shell itself. So it's completely impossible to change the flight path of this gadget so that it doesn't hit me.
Fortunately, although my electromagnetic control force is irrelevant to Hilda alloy, it does not mean that I am okay with this shell.
At the moment when the cannon fired, I almost suddenly reached out and pushed it to the side. But in the next second, I flew backwards and rested, but my wings suddenly flew open, and two waves in the air stabilized my body and landed safely, but the ground not far away was booming. A large swath of dirt was lifted.
The people in the monitoring room quickly replayed what happened at that moment with a high-speed camera, and then those people's mouths opened wider than before. Before I saw what I just did, and then avoided the shells, they were very surprised at the time, but they were not so surprised now, because we are very strong. It's not too strange how one shell didn't treat me. But after seeing the situation clearly, they had to be surprised. Because I just pushed one side of the shell with my hand and pushed the shell out obliquely. This is why I suddenly flew out towards the right rear side. This is actually the reaction force transmitted by the cannonball that I pushed the cannonball, but because my movement is prepared, and I am not directly resisting the full kinetic energy of the cannonball, so I just flew backward a few meters and stabilized my body with wings Enron landed, but the artillery shell deflected off the ground and hit the ground. This is how the dirt just came up.
Pushing the shells empty-handed, the result made the guards feel a ring of white sweat on their necks. Although I am wearing power armor, this is definitely not the reason for power armor, because all the guards after the base base are powered armor, which means that they know how much power armor can do. The action I just made was absolutely impossible with power armor.
I didn't care about the shock of those people, I walked directly into the smoke-filled passage, and the people inside still didn't respond in shock. No one reacted until I stepped on the door that fell to the ground. Someone quickly operated the cannon, but more people started to greet me with individual weapons.
Of course, I fired back when they opened fire. I fired at the same time with the pistol and the rifle on the left and right, and constantly moved to avoid the grenades and rockets that were fired by the opponent. As for the conventional ammunition, I did not manage it at all, and it would not produce any lethality anyway. .
The people across from my flashing turns found that the firepower on their side was getting thinner and thinner. When someone wanted to shout to strengthen the firepower, they found that most people around them were sitting on the ground in a colorful manner. Obviously It's all "killed"!
"I rely, how can I fight this?" A senior special soldier wearing power armor hiding behind one of the artillery's gun shields and said to a person around him, "that guy's hit rate is at least 98% ~ www.mtlnovel. com ~ Our head stretched for a second, and we couldn't fight back! "
The next person nodded and said that there was really no way, but he quickly lighted up, and then said, "I have a way, you are going to cover me, I want to fight."
"Hey, what are you doing?" I didn't expect my companion to go out suddenly, and the special forces here couldn't complain. I just hurry to point my grenade gun at my approximate position, which is a five-round burst. Of course the explosion won't hurt. To me, but can interfere with my shooting, and that's enough.
The guy under his cover really succeeded in rushing to the target location, and then picked up a square box on his arm from a "killed" person.
"I trust, you've done this for a long time?"
The man fixed the thing to his arm and said, "Do you know what this is?" Without waiting for the other person to answer, he pressed the switch on the gadget, and the gadget on the arm suddenly opened a meter and eight heights around him. , Light blue light film about 80 cm wide.
"I said ... Energy Shield ?!" (To be continued)
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