O que é FIBRA DE CARBONO? Como é feita a FIBRA de CARBONO? Onde usa a FIBRA de CARBONO?

What is carbon fiber? Hey Engineering Lovers, my name is Igor Felipe and I'm sure you've heard about the application of carbon fibers out there. Whether in sports cars, formula 1 cars, structures and even industrial applications, carbon fibers can be found in our daily lives.

But the unanswered question is: what is carbon fiber actually? And before continuing, if you're watching this video and you're not subscribed, take the opportunity now to subscribe, leave your like and activate the bell so you can be part of the biggest community of engineering lovers on youtube, closed? Come on, carbon fiber is a composite material that has unique characteristics of strength and lightness, which makes it a prominent material in various applications.

For example, they have a very high tensile strength, that is, they are able to resist elongation forces without breaking, and this tensile strength is even greater than that of metals such as steel. In addition to tensile strength, carbon fibers also have excellent compressive strength. They are able to withstand compressive forces without suffering deformation or structural failure, which makes them suitable for applications involving compressive loading, such as bars, columns or beams.

Another positive point is that they have high resistance to bending, that is, they are able to withstand forces applied in a direction perpendicular to their longitudinal axis. This characteristic makes carbon fibers suitable for applications where flexibility, combined with strength, is required, as in the case of flexible rods or curved structural components. And in addition to the other resistances, it also has high fatigue resistance.

This means that they are able to withstand repeated charging and discharging cycles without failing, such as in applications subject to dynamic loads or stress cycles, such as parts of sporting equipment or mechanical components subject to vibration. Now the main point would be its specific resistance, which is one of its main advantages. They have a very high strength-to-weight ratio, meaning they are incredibly strong for their weight.

This means that carbon fibers can provide the same structural strength as other materials, at a significantly lower weight. These mechanical strength characteristics make carbon fibers a very desirable material in many areas, allowing the manufacture of lighter, stronger and more durable components compared to other traditional materials. However, it is important to note that the strength properties of carbon fibers can vary depending on their manufacture, heat treatment and fiber orientation.

And what are these carbon fibers made of, is it just carbon? Carbon fibers are composed primarily of carbon in the form of filaments or extremely fine fibers , which are bundled together and woven into certain patterns to form a solid structure. But calm down, because this manufacturing process is not as simple as it seems.

The carbon fiber production process involves several steps, from selecting the raw material to obtaining the final fibers, and it all starts with the Raw material The most used raw material is polyacrylonitrile or PAN, which is a polymer synthetic material that contains carbon atoms in its molecular structure. Other materials such as cellulose fibers and polyesters can also be used, but PAN is the most widespread. The first step is to convert the PAN into thin filaments.

It is dissolved in a solvent and then extruded through tiny holes in equipment called wet spinning and this forms continuous filaments of PAN. These filaments are then subjected to a process called stabilization and carbonization. During stabilization, complex chemical reactions take place to rearrange molecular structures and eliminate volatile substances such as nitrogen.

Afterwards, the filaments are subjected to carbonization. This process involves heating the filaments to extremely high temperatures, usually above 1000°C, in a controlled, low-oxygen environment. The high temperature causes thermal decomposition of the material, which releases volatile gases and leaves behind an almost pure carbon material.

After carbonization, some applications require an additional step called graphitization. In this process, the resulting carbon is again heated to even higher temperatures, between 2000°C and 3000°C, to improve its crystalline structure and increase electrical conductivity. In the end, the resulting filaments are now considered carbon fibers.

These fibers are usually bundled and twisted to form yarns, fabrics or ribbons. It is important to highlight that the carbon fiber production process is complex and requires a controlled environment and specialized equipment, and in addition, different manufacturers can use variations in the process to obtain specific properties. Once carbon fibers are produced, they can be combined with other materials such as resins to form a carbon fiber composite.

This composite is obtained through a process called lamination, in which carbon fibers are impregnated with resin and molded into a desired shape, such as flat sheets, tubes or three-dimensional parts. It looks a lot like the process used in glass fibers, except that in this case, we use carbon fibers. Unlike many metals, carbon fiber does not corrode, which means it does not deteriorate when exposed to aggressive or wet environments.

This makes it an excellent choice for applications in corrosive environments. However, it is important to point out that carbon fiber also has some limitations. The manufacture of carbon fiber components requires specialized technical knowledge and much more complex production processes and, therefore, it can be more expensive than conventional materials, which can directly influence its viability.

Despite these limitations, carbon fiber remains an outstanding material in many areas due to its unique properties and ability to provide significant improvements over other materials. But where are these carbon fibers applied? This type of fiber is widely used in various industries such as aerospace, automotive, sports and even the construction industry.

The aerospace industry is one of the main sectors that uses carbon fibers, where they are used in the manufacture of structural components of aircraft, such as wings, fuselage, stabilizers and internal parts. The lightness and high resistance of carbon fibers help to reduce the total weight of aircraft, improving efficiency and performance. The automotive industry is also another that uses carbon fibers a lot.

They are used in the manufacture of internal and external parts of vehicles, such as bodies, hoods, panels, chassis and interior components. This also allows vehicles to reduce weight, resulting in greater fuel efficiency, better performance and less environmental impact. It can also be found in sports and leisure equipment, such as high-performance bicycles, tennis rackets, fishing rods, and even surfboards.

Even the naval industry uses carbon fibers in the construction of high-performance boats, yachts and craft. And of course, it also finds application in civil engineering and construction. Typically, they are used to reinforce concrete structures such as bridges, beams, pillars and other types of structures.

This ensures greater strength, durability and can ensure the structural stability of structures. Carbon fibers can even be used in underfloor heating systems, because it has the ability to conduct heat efficiently. In addition to these sectors I mentioned, carbon fibers are also applied in other areas such as defense equipment, oil and gas industry, wind turbines, medical equipment and many other applications where lightness, resistance and durability are essential.

So, did you know about these carbon fiber features? Did you already know what a carbon fiber is? Leave it here in the comments that I want to know I'm going to leave two videos here on the side that you might like it too and that's cool, it's worth checking out.

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