"Well, it's a sensor here that broke."

“…”

"Also, the sensors and sealants in these places have been corroded and leaked."

"Wetness affects the sensor's judgment of data, so some wrong data will be transmitted back."

"These wrong data, when the processing center summarizes, conflicts with the set programs, and the system finally crashes."

The team led by Teacher Wang found out the crux of several problems through a series of analysis and judgments after reading data.

Since the problem has been found, the repair steps will soon be entered.

They first used a gantry crane to lay the robot flat.

After all, if a robot with no meter height is maintained in a certain danger if it is erected and repaired.

And if they are flat, they will be much easier to do.

The exoskeleton mechas were worn by several people, and these mechas even had helmets.

Then there are exoskeletons from head to back, to arms and thighs, etc.

The reason why we wear such a layer of exoskeleton armor is to ensure everyone's safety.

Because working on such a construction site, no one can guarantee that something unexpected will happen.

If those high-speed rail guys fall down or hit you, if they rely solely on their flesh and blood to resist, they will be dead.

But if there is such a layer of exoskeleton armor, it can help you share at least 80% of the external force impact.

It will not hurt bones or important parts.

In addition, wearing these exoskeleton armors can save at least 80% of their strength when working.

It can make people more labor-saving when working, and even exert greater strength.

For example, the shells of these robots are basically made of titanium alloy.

You should know that if titanium alloys are processed, it has been a profound science until now.

And in this regard, the one who is ahead is the hair bear.

There is no way, who can make people rich? It has long been the first country in the world to use titanium alloy as weapons on a large scale.

Even the Americans can only be discouraged in this regard and sigh that they are inferior to them.

This is also the main reason why the United States wants to rent large cargo rockets from Mao Bears.

The bear is not afraid of you to see it. I rent it to you and you can watch it casually, but you just can't learn it.

Why? Because the rocket's combustion chamber and some key components are all made of titanium alloy.

The processing and manufacturing process of this titanium alloy is only available in other people's hairy bears.

But don’t say that the Americans can’t create it, they just don’t want to create it.

You just look at their virtues that are completely scattered in the chips. If they could have created them, they would have created them themselves long ago.

Why bother to rent Mao Xiong's large cargo rocket? Isn't it just the rockets built by themselves that have no thrust?

In terms of titanium alloy, they could only praise the bear with their heads and sigh that they were not as good as that.

Originally, we were not very good at titanium alloy.

For example, we can smel it out, but if we want to process it, we won’t be able to do this.

Because the titanium alloy that has also been trained has very high hardness. If you want to make it into various shapes, you must have a large forging machine.

You also need some unknown processes and processes, but we won't be able to do this.

Although some titanium alloy parts can be stamped out, if you want to make pipes from titanium alloys, or parts with complex curved surfaces.

Even when we make a styling, we can't do it.

Now that we have developed SKI Technology, we have made leaps and bounds in the field of titanium alloy parts processing.

Especially the welding of Harbin Institute of Technology and the manufacturing of titanium alloy parts of Harbin Institute of Technology have become the ace majors of these two schools.

Originally, Harbin Institute of Technology’s welding is a trump card. This time it is more suitable to be the leader and become the only one in China.

Because they have made greater breakthroughs in the field of welding titanium alloys.

As for Harbin Engineering, it has made great progress in the field of casting of titanium alloy parts at one time.

This is also the main reason why the two universities were able to send teams on board this time.

Chen Cheng followed Teacher Wang's team and soon arrived in front of the robot.

Then start the operation. According to Teacher Wang’s request, he wanted to remove the lid from the robot’s thigh.

This lid is made of titanium alloy. Although it is coated with a thick layer of anti-rust paint, it is because it works in deep water for a long time.

There was still rust on the screws tightening of these machine covers.

With Chen Cheng's experience, such screws are the most difficult to twist.

But now this is nothing. He put his arm up and tapped it on the LCD screen on his arm a few times.

Soon a sound came from the forearm of the machine's exoskeleton, just like a Transformer.

After a while, a wind cannon popped out of the storage compartment of the arm, which was very small.

With this wind cannon, he quickly screwed off the screw and reached out to lift the lid on the robot's thigh.

Unexpectedly, the cover is not just the screws tightly.

Even at the connection, they have rusted together.

Although titanium alloys are also very corrosion-resistant, who has allowed these robots to operate in seawater hundreds of meters deep all year round?

You should know that the deeper the sea water, the higher the concentration of various solutions.

It contains various complex sea salts, which have extremely high corrosion levels.

As long as it is an alloy, trace elements will inevitably precipitate.

When those trace elements precipitate onto the metal surface, they will naturally rust when they are bubbled by such a high-salinity solution.

Moreover, because they operate in deep water areas all year round, these robots operate in high-pressure environments for a long time.

Underwater at a depth of hundreds of meters, there are always pressures like hundreds of atmospheric pressures.

Even if the shells of these robots are made of titanium alloy, they cannot withstand such high pressure.

Therefore, slight deformation is inevitable.

So it is extremely difficult to remove these shells.

Because not only rust, it will also cause deformation.

Without these exoskeletons that can amplify torque, it would be really hard to disassemble these robots by relying on them alone.

One of the little brothers just didn't use any good strength because they exerted too much force.

He immediately lifted the breastplate on the robot's chest and hit a guy opposite him on the head.

At this time, the importance of wearing exoskeleton armor is reflected.

The little brother just had a clang of his helmet smashed, and then he fell out of the back and sat down and squatted.

It will be fine after a while.

If he hadn't worn a helmet or armor, he would probably have been hospitalized at this moment.

The hardness of the metal lid of this titanium alloy is not a joke.

If it hits the head this time, even if it doesn't hit the hole in his head, it will be bloody.

But at this time, the brother was safe and sound...
Chapter completed!