Monster Factory

The research and development work of the bionic electric muscle was placed in an experimental workshop not far from the office.

The Longxitan factory is now vastly paved, and the car is on the Huanhai Avenue. Looking at the factory is like looking at a small city.

But the core of the factory has always been in the barren hill surrounded by three sides.

The Ye Qing office is here, the factory R&D center is here, and the underground base is here.

Ye Qing walked into the test workshop and participated in the research of the masters, metal experts, electronic messengers, material masters, has been waiting for a long time.

The technical data of the bionic electric muscle has been guided by Ye Qing, and one of the four monster representatives.

The term bionic electric muscle is not too strange in mechanical dynamics. Traditional hydraulic pneumatics, and the most common bearing power, have almost been developed to the extreme. And these powers are often tied to bulkiness.

Engineers are eager to find a breakthrough sporting model, such as a muscle-like fiber that can be independently linearly contracted.

Only this kind of power mode can perfectly simulate the characteristics of human motion.

It can be widely applied to the field of robotics and medical fields.

Primary taro products related to bionic electromyography are available every year, but these products are currently not commercially viable.

For example, mit developed the "Nylon Muscle", which can only make nylon muscles move through special molding methods and thermal deformation principles.

A little memory material feels, using temperature to control the amount of material shrinkage.

However, its shortcomings are also obvious. The preferred material shrink cycle life is very low, only tens of thousands of times. The strength generated during contraction is very low, similar to patients with muscle weakness.

There is also a poor controllability of the contraction angle, and it is impossible to complete the flexible movement of the human fingers and the trunk, and the like.

Expensive, such as bionic electromuscular materials made of various alloys.

Its contraction life is improved and its strength is enhanced, but the power core is still old.

Through the motor, a mechanism such as a pulley and a take-up reel is converted into a muscle-like linear contraction motion. The volume becomes more cumbersome and the energy consumption increases dramatically.

The cost is high, and the bionics are imitation. The electric crystal design of the watcher robot series, the technology of using land, is only a bit more obvious.

What the giant beast industry now has is the most perfect biomimetic electromyography technology.

This bionic electric muscle consists of a single moving ball of ball-shaped refill.

Each sporting fiber can perform the same bionic movements as human muscles independently.

The moving fibers can be repeatedly superimposed or made finer. Of course, the cost will become very expensive.

A standard size sports fiber, which is printed with a special structural tube from a biofibrous material.

The tube body should be combined with a high-tech product called [thermal neurons], which can convert electrical energy into heat. And like the human nerve, free to control each unit, releasing different heat energy.

The thermal energy of each unit can be as precise as five millimeters long and the heat transfer between them is very low.

It is very complicated to understand, if it is a popular image.

It is necessary to put a soft electric heating wire to a length of 5 mm or even 2 mm, which has different temperature changes, and the temperature difference does not conduct each other.

This makes it easier.

If you want to achieve it through technical means, I am afraid that it will be chased by the materials engineers.

They will chase and kill, and roar. "Come here, I will give you a question. How to make a glass of water, one-third is 50 degrees, one-third is 70 degrees, and one-third is 100 degrees." ""

"Can't get it, Lao Tzu chopped you."

Thermal neuron technology is a technical difficulty similar to a cup of water and several different temperatures.

What is the key role of this technology in bionic muscles?

It can thermally deform the tube of a special bio-fiber material through a dense thermal unit.

This is precisely controllable thermal deformation, and the accuracy of the deformation angle is far beyond the range that human muscles can control.

Special biomaterials, the contraction strength produced under thermal deformation, and the energy released by storage, far exceed the human muscle strength of the same volume.

Biomaterials and thermal neurons form an artificial motor fiber.

The artificial motor fibers are superimposed and attached to the ultra-light metal skeletons that are highly similar to the human skeleton.

They constitute a complete artificial body. The shrink cycle life cannot be described in terms of secondary times because it has a working life of more than five years under normal conditions.

Depending on the structure of the ultra-light metal skeleton, or the absence of metal bones like the tongue, there are many possibilities for this type of exercise.

I don't know if it is a coincidence, or the result of the technology of the monster factory.

When the bionic electric muscle is in motion, it is caused by the heat generated by the thermal neurons and transmitted to the tube of the special biological material.

Its surface temperature feels like the temperature of human skin.

It represents an infinite possibility.

......

"Thermal neurons are more difficult. The boss has to match 50 masters to produce equipment." After the masters finished reading the technical materials, they answered this question.

“The ultra-light metal skeleton is very simple,” the metal expert replied.

“The raw materials of bio-fiber tubes are difficult. It requires us to add more synthetic materials to the previous generation of bio-fiber materials. We need to provide technical guidance to the cooperative bio-tech companies in order to obtain qualified raw materials.” .

“The electronic motion control system is simple because we don’t have to program the control.” The electronic messenger replied this way.

"Not too difficult."

Ye Qing replied, "I have read the information carefully. Our difficulties are mainly focused on the lack of specialized industrial equipment for mass production of thermal neurons."

“Biofiber materials have technical reserves and equipment.”

"So, concentrate on solving the equipment for mass-producing thermal neurons. Just now the factory is going to renovate the virtual factory 5.0, and there are many jobs to be suspended."

Ye Qingmei didn't have much worry. Some technologies didn't break the window paper, they felt incredible and shouted impossible.

But with a whole set of technical information to break the window paper, it became reasonable.

How to make thermal neurons?

Science tells us that there is resistance to convert electricity into heat.

Only metal is the best resistance material, but the heat energy converted from metal is uncontrollable. It needs to be hot together and it should be cold and cold.

So there is no need to lag behind the resistance heating method.

A bit higher, such as why the sun is shining, will it be hot?

Because it emits light, the light contains electromagnetic energy.

So if a thermal unit, a thermal unit, is equivalent to a miniature electromagnetic wave generator, can it let it release precise and controllable different temperatures?

In the i7 processor, which is smaller than the matchbox, it can integrate 1.8 billion transistors.

It is difficult for the giant beast industry to integrate two hundred or even five hundred controllable micro-electromagnetic generators in a one-meter long thermal neuron.

It's hard, from a mechanical point of view, it's harder than making an i7 processor.

Of course, there is only the giant beast industry, and only technology is produced.