The research and development of bionic electric muscles was placed in the experimental workshop not far from the office.
The Longxitan factory is now very large. The car is walking on 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 mountain surrounded on three sides.
Ye Qing's office is here, the factory research and development center is here, and the underground base is also here.
Ye Qing walked into the experimental workshop. The Master Craftsman, Master Metal Expert, Electronic Messenger, and Material Master who participated in this research have been waiting for a long time.
The technical information of bionic electric muscles has been derived by Ye Qing, and the four monster representatives have one copy each.
The term bionic electric muscles is not too unfamiliar in mechanical dynamics. Traditional hydraulic and pneumatic, and the most common bearing power, have almost been developed to the extreme. And these powers are often linked to clumsiness.
Engineers were eager to find a breakthrough movement model, such as a muscle fiber movement model that could independently contract linearly.
Only this kind of power model can perfectly simulate the characteristics of human movement.
It can be widely applied to the field of robotics and medical treatment.
Elementary gimmicks related to bionic electric muscles are released every year, but at present, these products have no possibility of commercialization.
For example, the gimmick version of "nylon muscle" developed by MIT can only move the nylon muscle through a special molding method and the principle of thermal deformation.
It feels like a memory material, using temperature to control the shrinkage of the material.
But its shortcomings are also obvious. The shrinkage cycle life of the preferred material is very low, only tens of thousands of times. The strength generated during the contraction is very low, similar to that of patients with muscle weakness.
There is also poor control of the contraction angle, unable to complete the flexible movements of human fingers and torso, and so on.
More expensive ones, such as bionic electric muscle materials made of various alloys.
Its shrinkage life is improved and its strength is enhanced, but the power core is still the same.
Through the motor, mechanisms such as pulleys and reels are transformed into linear contraction movements similar to muscles. The volume becomes more cumbersome, and the energy consumption will increase greatly.
The cost is high, and the bionics are also nondescript. The Watchman robot series designed by Dian Jing uses this technology, but the imitation is better.
What Monster Industries now has is the most perfect bionic electric muscle technology.
This bionic electric muscle is composed of artificial motion fibers as thick as a ballpoint pen.
Every motor fiber could independently complete bionic movements that were exactly the same as human muscles.
Sports fibers could be stacked repeatedly and could also be made thinner. Of course, the cost of doing so would also become very expensive.
For a standard size sports fiber, a special structure tube was first printed out of biological fiber materials.
The tube had to be fitted with a high-tech product called the [Thermal Neuron]. The Thermal Neuron could convert electricity into heat. Unlike human nerves, they could freely control various units and release different amounts of heat.
The thermal energy length of each unit could be precisely five millimeters long, and the thermal conductivity between each unit was also very low.
It was very complicated and difficult to understand, but if one were to use a common analogy,
It meant that a soft heating wire had to be made into a 5 millimeter section or even a 2 millimeter section. Then, there would be different temperature changes, and the temperature difference would not be transmitted to each other.
Now, the logic was simple.
However, if he wanted to achieve this through technical means, he was afraid that he would be hunted down by material engineers.
They would chase after him while roaring, "Come, come, come, I'll give you a question. How do you make one-third of a glass of water 50 degrees, one-third of it 70 degrees, and one-third of it 100 degrees? "
"If you can't do it, I'll chop you up."
The thermal neuron technology was similar to a glass of water with several different temperatures.
What key role could this technology play in the bionic electric muscles?
It could make the special biological fiber material tube undergo thermal deformation through dense thermal units.
This was a precise and controllable thermal deformation. The accuracy of the deformation angle far exceeded the range that human muscles could control.
The contraction strength of special biological materials under thermal deformation and the energy stored and released far exceeded the strength of human muscles of the same volume.
Biological materials and thermal neurons formed an artificial motion fiber.
The artificial motion fiber was superimposed on a large number of times and attached to the ultra-light metal skeleton that was highly similar to the human skeleton.
They formed a complete artificial body. The contracted cycle life could not be described as twice because its working life under normal circumstances was more than five years.
According to the different structure of the ultra-light metal skeleton, or the non-metal skeleton like the tongue, countless possibilities of movement could be derived.
It was unknown whether it was a coincidence or the crystallization of the Monster Factory's technology.
When the bionic electric muscles moved, the heat generated by the thermal neurons was transmitted to the special biological material tube.
Its surface temperature was also very similar to the temperature of human skin.
It represented infinite possibilities.
…
"The thermal neuron is more difficult. Boss, you have to deploy fifty master artisans to produce the equipment," the master artisan replied after reading the technical information.
"The ultra-light metal skeleton is very simple," the master metal expert replied.
"The raw materials of the biological fiber tube are more difficult. It requires us to add more composites to the previous generation of biological fiber materials. We have to provide technical guidance to the biological companies we cooperate with in order to obtain qualified raw materials," the materials master replied.
"The electronic motion control system is very simple because we don't need to program the control," the Electronic Messenger replied.
"It's not difficult."
Ye Qing replied, "I've read the information carefully. Our difficulties are mainly focused on the lack of industrial equipment for the large-scale production of thermal neurons."
"We have technical reserves and equipment for the biological fiber materials."
"So, focus on the equipment for the large-scale production of thermal neurons. It just so happens that the factory is about to undergo the virtual factory 5.0 upgrade, and many positions will be suspended. "
Ye Qing did not have much worry between his eyebrows. Some technologies would be inconceivable and impossible before they were broken through the window paper.
However, with a complete set of technical information to break through the window paper, it became reasonable.
How do you make a thermal neuron?
Science tells us that only with resistance can electricity be converted into heat.
Only metal is the best resistance material, but the heat converted from metal is uncontrollable. It needs to be hot and cold together.
Therefore, there is no need to use the backward resistance heating method.
More advanced ones, such as why is it hot to bask in the sun?
Because it emits light, and the light contains electromagnetic wave energy.
Then, if a thermal unit on a thermal neuron is equivalent to a miniature electromagnetic wave generator, wouldn't it be able to release accurately controllable different temperatures?
The i7 processor, which is smaller than a matchbox, can integrate 1.8 billion transistors.
Monster Industries wants to integrate 200 or even 500 controllable micro-electromagnetic generators in a one-meter-long thermal neuron. Is it difficult?
From a mechanical point of view, it is more difficult than making the i7 processor.
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