The research and development of bionic electromuscular muscles was placed in an experimental workshop not far from the office.

The Longxitan factory is now very large, and the cars are walking on Huanhai Avenue, and looking at the factory is like looking at a small city.

But the core of the factory has always been in that barren mountain surrounded on three sides.

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

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

The technical information of the bionic electromuscular has been guided out by Ye Qing, and the representatives of the four monsters have one copy.

The term biomimetic electromuscular muscle is not too new in mechanical dynamics. Traditional hydraulic-pneumatic, and most commonly bearing power, have been developed almost to the extreme. And these dynamics are often linked to bulkiness.

Engineers were desperate to find a breakthrough mode of movement, such as a movement pattern that can contract linearly independently, like muscle fibers.

Only this dynamic mode can perfectly simulate the characteristics of human movement.

It can be widely used in the field of robotics and medical field.

Primary gimmick products related to biomimetic electro-muscle are launched every year, but none of these products are currently commercialized.

For example, MIT developed a gimmick version of "nylon muscle", which can only be made to move nylon muscle through a special molding method and the principle of heat deformation.

It's a bit of a memory of the material, and the temperature is used to control the shrinkage of the material.

However, its disadvantages are also obvious, the preferred material shrinkage cycle life is very low, only tens of thousands of cycles. The force of contraction is very low, similar to that of people with muscle weakness.

There is also poor controllability of the angle of contraction, inability to complete the flexible movement of human fingers and torso, and so on.

A little more expensive, such as biomimetic electro-muscle materials made of various alloys.

Its shrinkage life has been improved and its strength has increased, but the power core is actually the same as before.

Mechanisms such as pulleys and tape reels are converted into linear contraction movements similar to muscles through motors. As the volume becomes more bulky, the energy consumption increases dramatically.

The cost is high, and the bionic is also nondescript. The Watchman robot series designed by Electrocrystal uses this technology, but it is more clever.

What Behemoth Industries now has is the most perfect bionic electro-muscle technology.

This bionic electrical muscle is composed of artificial motion fibers the thickness of a ballpoint pen lead.

Each movement fiber can independently complete the exact same bionic action as a human muscle.

Sports fibers can be repeatedly stacked and can also be made to be more delicate. Of course, the cost of doing so will also become very expensive.

A standard-size sports fiber, first printed from bio-fiber material with a special structure.

The body of the tube should be fitted with a high-tech product called [Thermal Neuron], which can convert electrical energy into heat energy. And like human nerves, they freely control each unit and release different heat energy.

The thermal energy length of each unit can be accurate to five millimeters long, and the heat conductivity between them is also very low.

It's complicated to say, if you use a popular analogy.

It is necessary to make a soft heating wire a 5 mm section, or even a 2 mm section, with different temperature changes, and the temperature difference will not be conducted to each other.

Now the reason becomes simpler.

But if you want to achieve it through technical means, I am afraid that you will be chased by material engineers.

They will chase and kill while roaring, "Come on, come on, I'll give you a debut question." How to make a glass of water one-third is 50 degrees, one-third is 70 degrees, and one-third is 100 degrees. ”

"I can't get it out, I'll cut you. ”

Thermal neuron technology is similar to a glass of water, with several different temperatures.

What is the key role of this technology in biomimetic electromosis?

It can make the special bio-fiber material tube body heat deformed through a dense thermal unit.

This is a precise and controllable thermal deformation, and the angle of deformation is far more accurate than a human muscle can control.

The contraction strength of the special biomaterial under heat deformation, and the energy released by storage, also far exceed the strength of the same volume of human muscle.

Biomaterials and thermal neurons that make up an artificial motor fiber.

Artificial motion fibers are superimposed on a large number of ultra-light metal bones, which are highly similar to human skeletons.

They form a complete artificial body. Shrink cycle life cannot be described in terms of 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 such as the tongue, there are countless possibilities for locomotion.

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

When the bionic electromyotic muscle moves, it is due to the heat generated by the thermal neurons and conducts it to the special biomaterial tube.

Its surface temperature is also very similar to the temperature of human skin.

It represents infinite possibilities.

……

"Hot neurons are more difficult, boss, you have to deploy fifty delicate masters to produce equipment. After reading the technical information, the delicate master replied.

"Ultra-light metal bones are very simple. The metal expert replied.

"The raw materials of the bio-cellulose tube body are more difficult, it requires us to add more synthetics to the previous generation of bio-fiber materials, and we need to provide technical guidance to the cooperative bio-companies in order to obtain qualified raw materials. The material master replied.

"The electronic motion control system is very simple because we don't have to program the controls. The emissary replied.

"It's not that hard. ”

Ye Qing replied, "I have also read the information carefully, and our difficulties are mainly focused on the lack of special industrial equipment for large-scale production of thermal neurons. ”

"We have the technical reserves and equipment for bio-fiber materials. ”

"So, let's focus on solving the problem of large-scale production of thermal neurons. It just so happens that the factory is about to carry out the rectification and upgrade of virtual factory 5.0, and there are many positions to be suspended. ”

Ye Qingmei didn't have too much worry, some techniques would feel unbelievable and shout impossible before they pierced the window paper.

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

How do you make hot neurons?

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

Only metal is the best resistive material, but the heat energy converted by metal is uncontrollable, and it must be hot and cold together.

Therefore, there is no need for backward resistance heating methods.

A little more advanced, like why is it hot in the sun?

Because it emits light, light contains electromagnetic wave energy.

So if a thermal cell on a thermal neuron is equivalent to a miniature electromagnetic wave generator, wouldn't it be possible to let it release a precise and controllable temperature of different temperatures?

The i7 processor, which is smaller than a matchbox, can integrate 1.8 billion transistors.

Is it difficult for the Behemoth industry to integrate 200 or even 500 controllable micro-electromagnetic generators in a meter-long thermal neuron?

It's hard, it's harder from a machining point of view than it is to make an i7 processor.

Of course~ Only the giant beast industry can have the technology to produce it.