Behind the scenes technology company
Chapter 44 This is called a laser (please recommend and collect)
Chapter 44 This is called a laser (please recommend and collect)
While Wei Lai was making precise modifications to his own robots, China's research on room-temperature superconducting alloys had never stopped.
The properties of room-temperature superconducting alloys are constantly being explored. This mixture of multiple metals does not have strong plasticity.This puts forward more requirements for material processing.
It is not to say that room temperature superconducting alloys are always in the superconducting state, but that the superconducting properties can be displayed stably at room temperature, and they are still alloys in essence.
Researchers have made great efforts to achieve plastic extension by changing the material ratio without losing its superconducting properties at room temperature.More types of room-temperature superconducting materials are also being developed. Among them, iron-based superconductors and carbon-based superconductors are undergoing the fastest research progress.
The two are the research directions of most countries. With comparison and observation objects, the prospect of more superconducting materials is bright.The cost of the current room temperature superconducting alloy preparation technology is also continuously reduced, and it has taken the lead in applications in military industry, aerospace, and laboratories.
At the Lop Nur military base not far from the future base, the Superconducting Military Research Institute is conducting research and development experiments on new materials and equipment.Using the transmission properties of superconducting alloys at room temperature, the military has launched research on superconducting propulsion systems, superconducting electromagnetic propulsion and superconducting electric propulsion.
Smaller power motors are the advancement of superconducting alloys in magnetic propulsion and electric propulsion.Superconducting motors not only have the advantages of general electric propulsion systems, but also have the characteristics of large stand-alone capacity, high efficiency, low noise, and light weight.
It has strong advantages in communication and reconnaissance. The complete anti-magnetic performance has achieved a qualitative breakthrough in the application of the degaussing system. Magnetic field anti-reconnaissance means that the army will be more elusive and more aggressive.
Filters are key devices in electronic and communication systems, and their functions are to extract, separate or suppress electrical signals.Superconducting filter is an important component in the field of military equipment.In the modern battlefield where information warfare occupies a more important proportion, high-performance sensitivity, super anti-jamming, extension of warning time, reduction of transmission power, improvement of guidance accuracy, and increase of guidance distance will all be widely used in the military field. splendor.
Compared with it, the more intuitive feeling is on the high-power energy storage device. In layman's terms, the most representative common name is the laser cannon.A superconducting energy storage device is a power facility that uses superconducting coils to store electromagnetic energy directly, and then returns the electromagnetic energy to the grid or other loads when it is applied.
The Superconducting Military Research Institute is experimenting with a new generation of "superconducting laser cannon", the lossless characteristics of superconducting energy storage, and a brand new superconducting energy storage module, which is guided by the energy storage of the superconducting energy storage module and launched by the transmitter , and thus the laser weapon was born.
The laser weapon used in individual combat is one step closer to the universal equipment application, not only in the application of laser emission, particle emitter and electromagnetic flow emission, but also has broad prospects.
Weapons often speak for themselves in terms of power, and the characteristics of lasers are high temperature, precision, and persistence. The "Xinghan" special force is the first unit to conduct new equipment assembly experiments. Don't forget that Wei Lai also has the identity of a "Xinghan" commander, and he also uses his own products.
Lop Nur military base, testing ground, "Xinghan" adjutant Chu Fan is in charge of this arms test.
The equipment tested this time seems to be a small individual combat device, a shoulder-mounted high-temperature cutting laser cannon.
Chu Fan personally carried out the test project of the new weapon, and his tall and resolute figure appeared in position 500 meters away from the target.The test objects are steel plates of different thicknesses.
"Report, test ready."
"After the countdown, start the test."
"3.2.1, start testing."
Chu Fan quickly set up the laser cannon, locked the parameter target with the assistance of the tactical eyepiece he carried, and carried out rapid shooting at different targets.Each laser output time is 1 second.
A series of fist-sized red lasers hit different targets, distorted air and the smell of burning remained in the air, and the gun barrel on Chu Fan's shoulder was only slightly hot. (No one is stupid enough to touch the muzzle of the cannon that just fired the laser.)
"The data results are being calculated." More bosses on the console watched the experiment of the new equipment. After all, it was the individual laser cannon in the movie, which was realized step by step in the real world.
"The attack fired 50 rounds and all targets were hit."
"Kid Chu's marksmanship is top-notch. If it weren't for the new equipment to prepare for future space exploration, I would be able to release him?" A certain boss said dissatisfied.
"Muzzle loss rate: 15%"
"Energy consumption per shot: 2%"
"The muzzle loss is still high, and metals with stronger performance are needed. Look at the situation of the target."
"In the case of one second output,"
"Five mm breakdown"
"One Centimeter Breakdown"
"Five Centimeter Breakdown"
"Seven centimeter breakdown"
"Ten Centimeter Breakdown"
"Fifteen centimeters did not penetrate, and the laser depth was 11.3 centimeters"
"This is the performance that laser weapons should have." Another boss said in shock.Individual laser weapons are limited by the ability to withstand high temperatures and the problem of high-power emission, and it has always taken longer to achieve better output.
The powerful output capability in a short time has completely conquered the military. The 11.3 cm thick steel plate can achieve such an effect in one second, and it is a small laser transmitter.
Then the continuous output and penetration characteristics of laser weapons have great potential.Room-temperature superconducting alloys have allowed the military to see the production and preparation of more powerful laser transmitters.
Ultra-long-range laser weapons also have extraordinary strategic significance.
"Power switching and barrel materials need to be addressed, as well as the superconducting laser energy block as a bullet."
"Ask Kid Chu how he feels."
"Report, the new equipment is very light, but the bullets are a bit small. After firing, it can be quickly transferred. The power should be good, but it is still a bit big. New training is needed to equip it."
Laser weapons still have various defects, but in terms of power and energy storage, further development has been provided for laser weapons.
This is a big step forward in defense industry technology.Whether it is the preparation and application of military weapons, or energy power systems and reconnaissance communication systems, the use of superconducting alloys plays an indispensable role.
For room-temperature superconducting alloys that do not require heat dissipation, the heat generation limitation in mechanical manufacturing will completely withdraw from the stage of history, and the temperature control will make the tools miniaturized, and the applicability has been greatly improved.
Aerospace science and technology brings together the country's most cutting-edge technology and the most complex systems. In the field of aerospace, the breakthrough of normal temperature superconductivity and the collision of existing cutting-edge technologies have sparked more brilliant sparks.
It can be said that mankind is closer to the journey of space exploration.
Today I changed Chapter 40 and applied again for release. If it still can’t be released, I’ll rewrite it.
(End of this chapter)
While Wei Lai was making precise modifications to his own robots, China's research on room-temperature superconducting alloys had never stopped.
The properties of room-temperature superconducting alloys are constantly being explored. This mixture of multiple metals does not have strong plasticity.This puts forward more requirements for material processing.
It is not to say that room temperature superconducting alloys are always in the superconducting state, but that the superconducting properties can be displayed stably at room temperature, and they are still alloys in essence.
Researchers have made great efforts to achieve plastic extension by changing the material ratio without losing its superconducting properties at room temperature.More types of room-temperature superconducting materials are also being developed. Among them, iron-based superconductors and carbon-based superconductors are undergoing the fastest research progress.
The two are the research directions of most countries. With comparison and observation objects, the prospect of more superconducting materials is bright.The cost of the current room temperature superconducting alloy preparation technology is also continuously reduced, and it has taken the lead in applications in military industry, aerospace, and laboratories.
At the Lop Nur military base not far from the future base, the Superconducting Military Research Institute is conducting research and development experiments on new materials and equipment.Using the transmission properties of superconducting alloys at room temperature, the military has launched research on superconducting propulsion systems, superconducting electromagnetic propulsion and superconducting electric propulsion.
Smaller power motors are the advancement of superconducting alloys in magnetic propulsion and electric propulsion.Superconducting motors not only have the advantages of general electric propulsion systems, but also have the characteristics of large stand-alone capacity, high efficiency, low noise, and light weight.
It has strong advantages in communication and reconnaissance. The complete anti-magnetic performance has achieved a qualitative breakthrough in the application of the degaussing system. Magnetic field anti-reconnaissance means that the army will be more elusive and more aggressive.
Filters are key devices in electronic and communication systems, and their functions are to extract, separate or suppress electrical signals.Superconducting filter is an important component in the field of military equipment.In the modern battlefield where information warfare occupies a more important proportion, high-performance sensitivity, super anti-jamming, extension of warning time, reduction of transmission power, improvement of guidance accuracy, and increase of guidance distance will all be widely used in the military field. splendor.
Compared with it, the more intuitive feeling is on the high-power energy storage device. In layman's terms, the most representative common name is the laser cannon.A superconducting energy storage device is a power facility that uses superconducting coils to store electromagnetic energy directly, and then returns the electromagnetic energy to the grid or other loads when it is applied.
The Superconducting Military Research Institute is experimenting with a new generation of "superconducting laser cannon", the lossless characteristics of superconducting energy storage, and a brand new superconducting energy storage module, which is guided by the energy storage of the superconducting energy storage module and launched by the transmitter , and thus the laser weapon was born.
The laser weapon used in individual combat is one step closer to the universal equipment application, not only in the application of laser emission, particle emitter and electromagnetic flow emission, but also has broad prospects.
Weapons often speak for themselves in terms of power, and the characteristics of lasers are high temperature, precision, and persistence. The "Xinghan" special force is the first unit to conduct new equipment assembly experiments. Don't forget that Wei Lai also has the identity of a "Xinghan" commander, and he also uses his own products.
Lop Nur military base, testing ground, "Xinghan" adjutant Chu Fan is in charge of this arms test.
The equipment tested this time seems to be a small individual combat device, a shoulder-mounted high-temperature cutting laser cannon.
Chu Fan personally carried out the test project of the new weapon, and his tall and resolute figure appeared in position 500 meters away from the target.The test objects are steel plates of different thicknesses.
"Report, test ready."
"After the countdown, start the test."
"3.2.1, start testing."
Chu Fan quickly set up the laser cannon, locked the parameter target with the assistance of the tactical eyepiece he carried, and carried out rapid shooting at different targets.Each laser output time is 1 second.
A series of fist-sized red lasers hit different targets, distorted air and the smell of burning remained in the air, and the gun barrel on Chu Fan's shoulder was only slightly hot. (No one is stupid enough to touch the muzzle of the cannon that just fired the laser.)
"The data results are being calculated." More bosses on the console watched the experiment of the new equipment. After all, it was the individual laser cannon in the movie, which was realized step by step in the real world.
"The attack fired 50 rounds and all targets were hit."
"Kid Chu's marksmanship is top-notch. If it weren't for the new equipment to prepare for future space exploration, I would be able to release him?" A certain boss said dissatisfied.
"Muzzle loss rate: 15%"
"Energy consumption per shot: 2%"
"The muzzle loss is still high, and metals with stronger performance are needed. Look at the situation of the target."
"In the case of one second output,"
"Five mm breakdown"
"One Centimeter Breakdown"
"Five Centimeter Breakdown"
"Seven centimeter breakdown"
"Ten Centimeter Breakdown"
"Fifteen centimeters did not penetrate, and the laser depth was 11.3 centimeters"
"This is the performance that laser weapons should have." Another boss said in shock.Individual laser weapons are limited by the ability to withstand high temperatures and the problem of high-power emission, and it has always taken longer to achieve better output.
The powerful output capability in a short time has completely conquered the military. The 11.3 cm thick steel plate can achieve such an effect in one second, and it is a small laser transmitter.
Then the continuous output and penetration characteristics of laser weapons have great potential.Room-temperature superconducting alloys have allowed the military to see the production and preparation of more powerful laser transmitters.
Ultra-long-range laser weapons also have extraordinary strategic significance.
"Power switching and barrel materials need to be addressed, as well as the superconducting laser energy block as a bullet."
"Ask Kid Chu how he feels."
"Report, the new equipment is very light, but the bullets are a bit small. After firing, it can be quickly transferred. The power should be good, but it is still a bit big. New training is needed to equip it."
Laser weapons still have various defects, but in terms of power and energy storage, further development has been provided for laser weapons.
This is a big step forward in defense industry technology.Whether it is the preparation and application of military weapons, or energy power systems and reconnaissance communication systems, the use of superconducting alloys plays an indispensable role.
For room-temperature superconducting alloys that do not require heat dissipation, the heat generation limitation in mechanical manufacturing will completely withdraw from the stage of history, and the temperature control will make the tools miniaturized, and the applicability has been greatly improved.
Aerospace science and technology brings together the country's most cutting-edge technology and the most complex systems. In the field of aerospace, the breakthrough of normal temperature superconductivity and the collision of existing cutting-edge technologies have sparked more brilliant sparks.
It can be said that mankind is closer to the journey of space exploration.
Today I changed Chapter 40 and applied again for release. If it still can’t be released, I’ll rewrite it.
(End of this chapter)
Tap the screen to use advanced tools
Tip: You can use left and right keyboard keys to browse between chapters.
You'll Also Like
-
I! The villain leader, the protagonists are mentally broken
Chapter 282 12 hours ago -
Fantasy: The comprehension is against the sky, the Chaos Bell rings nine times at the beginning
Chapter 219 12 hours ago -
After being forced to marry by her stepmother, the Koi wife brings prosperity to the whole family
Chapter 368 12 hours ago -
Genshin Impact: Start by establishing the Kingdom of Winter
Chapter 200 12 hours ago -
Journey to the West: At the beginning, Monkey King was tricked into going to Penglai to find the god
Chapter 211 12 hours ago -
Abnormal survival: Transform into a weird girl
Chapter 200 12 hours ago -
One Piece: Beginning Fusion Wu Liuqi
Chapter 169 12 hours ago -
Chinese Martial Arts: Start as Feng Yuxiu!
Chapter 171 14 hours ago -
I am in Konoha: I have mosquito powers
Chapter 97 14 hours ago -
Zombieland: I Have a Tomb of God
Chapter 222 14 hours ago
