Skip to main content

The new materials are not just "materials". They are intelligent entireties that can repair themselves.



The image above this text is portraying the cube of the physical model of the universe. But it can also portray the new type of hybrid materials that are created for the space programs. That material must only cover by using metal layers. And it's suitable for space missions because there are very small contact layers between outer layers. 

The material is not conducting thermal energy through it. That kind of hairy material can also form a single-used heat cover. In that case, the material is vaporizing and takes the heat away from it. But if that material is connected with a 3D printer system. That allows remaking that layer again after the heat stress. This material can be made by using every kind of fiber like wool. 

In that case, the cultured cells that are forming the wool are installed in small robots. Those robots are carrying cell cultures, that are forming the calls that are making the fibers. That is covering the layer by using this material. Those robots might have a small pressure chamber, where is the air. And injecting those fibers can be made through that pressure chamber if the system must operate in the vacuum of space. That layer could protect the solid layers against thermal stress in spacecraft. 

And that makes the material a good thermal insulator. In the new 3D nanomaterials the form of the structure is in the key role. The material that is used in those structures is no matter. And the well-known materials can get new abilities when they are equipped with nano-structures like nanobubbles. 

The nanobubbles that are making things like beer extremely hard are the best example of the case. How the 3D nanostructures are affecting the material. And the nanobubbles can also give new abilities for the thing like cellulose. The nanobubbles can also be used for repairing the material damages in the structures. 

The idea of the self-repairing materials created by Interplanetary society and their  "Daedalus study project". The hypothetical interstellar spacecraft will have sub-robots that are used as 3D printers. The mission of those robots is to repair the damaged core of the spacecraft. 

Lockheed-Martin has created artificial robot spiders that can repair mylar or kevlar structures automatically. They can automatically repair the high-altitude robot airships used for the observation and communication boost missions.  And also there is the possibility that inside the aircraft are put the spider-robots. Those are used for making the repairments for the core of aircraft.  The high-temperature working methods are allowing to print metal or carbon fiber in the damage points. 




The new materials are not just materials. They are intelligent entireties which are containing microchip control abilities. In the material might be fibers, that are cutting in certain points. And in those points is the magnetized particles that can use to pull the fibers back in form. That thing makes those materials self-repairing. 

In the newest layers is the microchips that are feeling touch. And give orders for beginning the self-repairing process. But those microchips can also be used as the central computers of the spacecraft. In that case, the computers are integrated into the structures of the vehicle. And that leaves room for the cargo. 

The same way computers can integrate into the structures of buildings and nanotechnology along with intelligent particles can observe the damages in the structures. The self-repairing structures can make by using the microcircuit-looking robots that are taking their place in the entirety. The self-repairing biological materials can be bacteria or diatomic bacteria. 

At the first, the system delivers regular bacteria to the layer, and then the virus would transform them to make the silicon core for them. The self-replicating molecules like carbon chains can also make by using bacterial. There is the possibility that the bacteria is manipulating for creating the carbon chains. That kind of carbon chain can be used as the wires in the nanotechnological microprocessors. 

Even if regular computing turns to run on the quantum computers. The binary microchips can be used for controlling the movements of the angles of the prosthesis. Or the motors of nanomachines. In that model, the binary microchips are acting under the command of quantum computers. 


()https://www.moleaer.com/nanobubbles


()https://en.wikipedia.org/wiki/Project_Daedalus


Image:()https://upload.wikimedia.org/wikipedia/commons/thumb/9/9d/Structure_of_the_Universe.jpg/1251px-Structure_of_the_Universe.jpg

()https://kimmoswritings.blogspot.com/2021/08/the-new-materials-are-not-just.html

Comments

Popular posts from this blog

The new bendable sensor is like straight from the SciFi movies.

"Researchers at Osaka University have developed a groundbreaking flexible optical sensor that works even when crumpled. Using carbon nanotube photodetectors and wireless Bluetooth technology, this sensor enables non-invasive analysis and holds promise for advancements in imaging, wearable technology, and soft robotics. Credit: SciTechDaily.com" (ScitechDaily, From Sci-Fi to Reality: Scientists Develop Unbreakable, Bendable Optical Sensor) The new sensor is like the net eye of bugs. But it's more accurate than any natural net eye. The system is based on flexible polymer film and nanotubes. The nanotubes let light travel through it. And then the film at the bottom of those tubes transforms that light into the image. This ultra-accurate CCD camera can see ultimate details in advanced materials. The new system can see the smallest deviation in the materials.  And that thing makes it possible to improve safety on those layers. The ability to see ultra-small differences on surf

Quantum breakthrough: stable quantum entanglement at room temperature.

"Researchers have achieved quantum coherence at room temperature by embedding a light-absorbing chromophore within a metal-organic framework. This breakthrough, facilitating the maintenance of a quantum system’s state without external interference, marks a significant advancement for quantum computing and sensing technologies". (ScitechDaily, Quantum Computing Breakthrough: Stable Qubits at Room Temperature) Japanese researchers created stable quantum entanglement at room temperature. The system used a light-absorbing chromophore along with a metal-organic framework. This thing is a great breakthrough in quantum technology. The room-temperature quantum computers are the new things, that make the next revolution in quantum computing. This technology may come to markets sooner than we even think. The quantum computer is the tool, that requires advanced operating- and support systems.  When the support system sees that the quantum entanglement starts to reach energy stability. I

Humans should be at the center of AI development.

"Experts advocate for human-centered AI, urging the design of technology that supports and enriches human life, rather than forcing humans to adapt to it. A new book featuring fifty experts from over twelve countries and disciplines explores practical ways to implement human-centered AI, addressing risks and proposing solutions across various contexts." (ScitechDaily, 50 Global Experts Warn: We Must Stop Technology-Driven AI) The AI is the ultimate tool for handling things that behave is predictable. Things like planets' orbiting and other mechanical things that follow certain natural laws are easy things for the AI. The AI might feel human, it can have a certain accent. And that thing is not very hard to program.  It just requires the accent wordbook, and then AI can transform grammatically following text into text with a certain accent. Then the AI drives that data to the speech synthesizer. The accent mode follows the same rules as language translation programs. The ac