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Chapter 3407 The new metal elements that shocked the world

【Revision】



"Silver's electrical conductivity is the strongest among the metals we know so far, and its electrical conductivity is approximately 6.3x10^7 S/m.

The reason why it has such excellent conductivity is that there are a large number of free electrons inside silver atoms, and these free electrons can move easily, thus effectively conducting electric current.

The electrical conductivity of this metallic element is more than five times that of silver, the electrical conductivity is very high, and its internal resistance is very low.

To a certain extent, this can be said to be close to the performance of superconducting materials.

Moreover, this new metal element will further reduce its internal resistance as the metal temperature increases or decreases, which means that its conductivity can be greatly improved.

Therefore, this new metal element is very suitable for making superconducting materials and has extremely high application value in many fields."

Hearing Wu Hao's words, the audience immediately became noisy. Everyone looked at the data and experimental pictures on the big screen behind Wu Hao in disbelief, with shock and curiosity written on their faces.

They stared wide-eyed at the data and experimental images on the big screen, trying to decipher more secrets of this magical metal.

"I know, it's unbelievable."

Looking at the shocked faces in the audience, Wu Hao's voice was calm and firm.

"But science is about constant exploration and discovery. The discovery of this new metallic element is not only the birth of a substance, but also the beginning of a new era."

He paused and looked around, giving everyone a chance to digest the information. Then he went on to explain in depth: "This metallic element has far greater electrical conductivity than any material we have ever known, and its internal resistance is several

very low.

This means that there is almost no energy loss when current passes through. This characteristic gives it great potential in many fields.

For example, in the field of electronics, this new metal element can be used in superconducting cables, superconducting coils and superconducting transformers.

Because of its excellent electrical conductivity and low energy consumption, superconducting cables made with this new element for power transmission can improve transmission efficiency, reduce losses, and reduce the diameter and weight of the cable, thereby saving space and cost.

In addition, superconducting coils and transformers made of this new material can also be used for high-precision magnetic field control and signal transmission."

For another example, in the medical field, this new metal element is also used in a wide range of applications.

Just like the superconducting MRI machines and superconducting magnetic therapy machines that we have been exposed to and used in hospitals for a long time, superconducting technology is also applied to them.

This is because the superconducting MRI instrument uses the high-intensity magnetic field generated by superconducting magnets to obtain clear images of the inside of the human body, which is of great significance for the diagnosis and treatment of diseases.

However, the traditional method of achieving superconductivity is very troublesome and requires the use of ultra-low temperature technology to achieve the superconducting state. Therefore, all MRI equipment cannot be turned off once it is turned on.

Shutting down the machine once can cost hundreds of thousands or even millions, which is why MRI is so expensive compared to ordinary CT.

And if we use new metal elements like ours, we can achieve superconducting states without using ultra-low temperature superconducting technology.

Moreover, the MRI equipment produced using this new material can be shut down at any time, thereby reducing energy consumption, extending the use time of the equipment, reducing use and maintenance costs, and most importantly, reducing the patient's examination costs."

Speaking of this, Wu Hao paused for a moment, and then continued: "In addition, the famous magnetic levitation technology also widely uses superconducting materials.

Superconducting maglev trains use the diamagnetic properties of superconducting materials to achieve contactless levitation and high-speed operation of the train. It has the advantages of high speed, low noise, and low energy consumption.

But its shortcomings are also very significant, that is, the cost is high, and the highest proportion of the cost is actually superconducting technology. Because to achieve superconducting state, ultra-low temperature technology or high temperature technology must be used to achieve superconductivity. This cost

It's very high.

And if we use this new metal element of ours, we can greatly reduce the cost of superconducting materials, so that superconducting maglev trains can be widely used and benefit the public."

"There is also the nuclear energy industry. Superconducting magnets are one of the most common applications of superconducting technology in the nuclear energy industry.

In nuclear fusion research, superconducting magnets can generate powerful magnetic fields, which are used to control the movement of plasma and make the nuclear fusion reaction more stable and controllable.

In addition, superconducting cables can also be used to transport electrical energy to high-energy physics experimental facilities such as ion accelerators and particle beam therapy equipment.

Finally, there is the application of weak points, which is also the area where this new metal element can best show its talents.

The most important one is superconducting computers. This new metal element can be used to create high-speed, efficient, and highly stable superconducting qubits and superconducting memories. These components have important application value in superconducting computers.

.

In addition, this new metal element also has application prospects in microwave electronics, quantum computing and information storage."

"And this is just the superconducting property of this new metallic element. In fact, because of its own properties, its range of applications is very wide.

For example, in the aerospace field, the high hardness, stability and excellent electrical conductivity of this new metal element make it an important material in the aerospace field.

It can be used to manufacture key components of aircraft, rockets and other aircraft, such as engine blades, turbine disks, etc. In addition, Star Metal can also be used as a protective material to protect aircraft from extreme environmental erosion.

Still in the field of nuclear energy, the high-temperature stability and corrosion resistance of this new metallic element make it an ideal protective material.

It can be used to manufacture protective covers, pipes and other components of nuclear reactors to ensure the safe operation of reactors under extreme conditions.

Even in the field of machine manufacturing, the high hardness and wear resistance of this new metallic element make it an ideal material in the field of machine manufacturing.

It can be used to manufacture high-performance cutting tools, molds and other components to improve processing accuracy and production efficiency.

In addition, this new metal element can also be used to make protective equipment, such as body armor, stab-proof clothing, etc."

At this point, he took a deep breath, calmed down, and then continued: "Of course, the discovery of this metallic element is just the beginning.

We still need further research and exploration to fully realize its potential.

But I believe that in the near future, as we study it in depth and work hard to tap out all of its potential, it will surely shine in various industries and fields, benefiting the world and mankind."


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