My black tech brain

It's no wonder that Chen Hao was excited. From the moment he got the memory of Tony Stark, Chen Hao wanted to make a steel armor in his dreams.

This temptation is as irresistible as women are to designer bags.

Although Chen Hao thought at that time, he was poor at that time, let alone making steel armor, even a scrap of steel armor could not be bought.

Fortunately, I got a part of the "deposit" from the Shengshi Group, and met Zhang Wei by chance. By the way, when the mechanical processing factory where Zhang Wei was on the verge of closing down, he "robbered" some shares.

If it is not for the second largest shareholder of the mechanical processing plant and wants to obtain these materials from Zhang Wei, the cost of the telephone fee is not small.

Thinking of this, Chen Hao opened the cushion that was wrapped in the outermost layer with excitement, and then a pile of silver-gray metal parts appeared in front of Chen Hao.

...

"Sure enough, it is a mechanical processing factory that survived the 1980s and 1990s. The precision of the parts produced is really high."

Picking up a part at random, Chen Hao measured it with a micrometer, and then he couldn't help showing a satisfied smile. The material in front of him was made of titanium alloy.

As we all know, the price of titanium alloy products is very expensive, but the reason for the high price is not its own material, but its processing.

It should be known that titanium alloy materials are one of the most difficult materials in the machining industry and recognized, and the initial processing cost is several times or even dozens of times that of titanium alloy materials.

The "thermal conductivity" of titanium alloy is very low, which means that its heat transfer is slow.

If the heat transfer is slow, the heat will accumulate locally during processing and it is easy to burn the tool. Therefore, in order not to generate a large amount of heat energy, the processing will be very slow.

Some large factories even use liquid nitrogen for cooling while improving the efficiency of titanium alloy processing.

At this moment, seeing the parts in these boxes, Chen Hao seemed to see how much thought Zhang Wei's processing factory had spent in order to process this batch of materials.

"After a few days, I'll be free to thank Zhang Wei. After all, he didn't charge me for the processing fee this time."

Chen Hao sighed, then happily put these parts on the workbench.

These are just some of the simple parts of the "skeleton" inside the steel suit, and they are indeed the most basic materials currently available to Chen Hao.

Putting aside the problem of energy, it is not that simple to make a real steel armor, just take the production method in Chen Hao's memory.

If you want to make a steel armor, you must have four main technologies.

The four main technologies are life support technology, structural force field technology, flight stabilization system, and molecular-level shock absorption system.

But the names of these four technologies alone will make physicists and engineers all over the world shiver at the same time.

Take the molecular-level shock absorption system as an example. The main reason why steel armor cannot be produced in the real world is because of the shock absorption system.

Because with the current technology, it is not difficult to create an exoskeleton capable of jetting weapons and aircraft. The difficulty is how to make the internal wearer survive the bombardment.

Take the plot in the first Iron Man.

The armor of the Iron Man generation has surpassed the speed of the F-22, and what is even more awesome is that it can stop in the air, and it is fine if it is hit by a tank in the air and falls to the ground.

You know that is supersonic speed!

Take the steel jersey for an emergency stop in the air. Assuming that Iron Man wants to stop when he flies to 600ms, according to the performance in the movie when he is chased by the F-22, he should slow down no more than four seconds, then the acceleration is roughly: 600÷ 4=150ms∧2

Assuming that Tony weighs 65kg, the force he receives when decelerating can reach: 150×65=9750N

When Iron Man flies to 600ms, he wants to stop. According to the performance in the movie when he is chased by the F-22, he should slow down no more than four seconds. Then the acceleration is roughly:

600÷4=150ms∧2

What is this concept?

If calculated according to the acceleration of gravity g=9.8Nkg, Tony needs to bear a weight of 9750÷9.8=994.90kg during deceleration.

It is equivalent to four ordinary adult sows pressing on him...

Looking back at the acceleration data just now, 150ms∧2, which is 15 times the acceleration of gravity.

This is hell-level acceleration that astronauts can't bear!

...

With one point alone, it is already an unattainable goal for many scientists, let alone other factors, but Tony in the movie is so unscientific.

But Chen Hao, who has Tony's memory, is very clear in his heart that the materials used to make shock absorption were not made by Tony at all, but invented by his father Edward Stark.

I don’t know if anyone cares about this detail. In the first Iron Man, a close-range missile exploded in front of him.

It stands to reason that the aftermath of the explosion can shake Tony to pieces, bleeding from his seven orifices.But Tony Stark didn't have a big deal, but was thrust into his body by shrapnel.

At that time, the protective armor worn by the clothes was a molecular-level shock-absorbing battle armor made by molecular machines.

But Chen Hao knew in his heart that this inner armor was actually made by biotechnology, so this inner armor was very fragile, and could almost be cut with a small blade.

But its shock resistance is very strong, and it can even resist the shock wave of the bomb.

And this is the main reason why Tony put a layer of iron on the outside of this molecular-level vibration reduction system.

...

If Chen Hao wants to make this thing, he must rely on biomolecular machines.

According to Chen Hao's memory, only twelve years ago, a German scientist successfully developed a rotatable "molecular wheel" and assembled the first biomolecular machine.

But that biomolecular machine is still being strictly protected by them, and they want to borrow it. This is completely talkative.

However, Chen Hao didn't worry in his heart. He also had this method of making biomolecular machines in his memory.

Just want to make this kind of machine, relying on Chen Hao's current financial resources, it is definitely impossible.

Unless, cooperate with the country...

.......

In fact, the idea of ​​cooperating with the country has popped up in Chen Hao's mind many times.

If he cooperates with the national scientific research team, Chen Hao is absolutely sure to create a biomolecular machine.

But the hard part is why the country believes you?

Are you a student who has not graduated from university?

I am afraid that even if I submit the detailed production process of the biomolecular machine to the country, no one will care about him!

But for Chen Hao, molecular machines must be made. Molecular machines alone can allow the country's science and medical technology to develop to a level.

Even if scientific progress is ignored, the steel armor will be upgraded to the bloodline armor in the future, which is the so-called nano armor, and the biomolecular machine is also the most important tool...

...

"Forget it, let's assemble the exoskeleton first, and then finish it step by step. I don't believe that when I become rich and an enemy, I won't be able to get a molecular machine!"

Thinking of this, Chen Hao's original good mood gradually disappeared, and even the thought of assembling the exoskeleton of the mechanical armor was gone.

"Sir! Your friend called you, do you choose to answer?"

Just when Chen Haozheng was depressed, Jarvis appeared in front of Chen Hao untimely.

"Take it!"

Chen Hao put down the exoskeleton parts in his hand, raised his head and glanced in the direction of Jarvis.

But when he saw the name projected by Jarvis, a strange color flashed across Chen Hao's face.