Accessories made from futuristic carbon
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LIFE IS HARD ENOUGH. EXPERIENCE LIGHTWEIGHT & ULTRA-ROBUST DESIGNS MADE OF CARBON.
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WEIGHT PROBLEMS? NOT WITH OUR DESIGNS. DISCOVER OUR CUSTOMERS' FAVORITES!
Carbon Halsketten
Carbon Kartenetuis
Carbon Geldklammern
Carbon Handy Hüllen
Carbon AirPod Hüllen
Carbon Key Organizer
Carbon Armreif
What is carbon?
Carbon fiber , also known as carbon fiber or CFRP , is an advanced material composed of extremely thin carbon fibers that are woven together. These fibers are approximately 5-10 microns in diameter and exhibit impressive strength while being lightweight .
How is carbon made?
To produce carbon fibers, special processes are used that require high temperatures of up to 1500 degrees Celsius. The manufacturing process usually begins with a starting material, such as polyacrylonitrile (PAN), that is heated under controlled conditions.
This process, also known as pyrolysis, removes the non-carbonaceous components of the material and creates the desired carbon fibers.
What makes carbon so special?
The high strength and light weight of carbon fiber make it an ideal material for a wide range of applications, particularly in industry, motorsport and aerospace.
Compared to other materials like steel and aluminum, carbon offers significantly higher tensile strength and stiffness at a fraction of the weight.
This enables the construction of lighter, yet strong and resilient structures.
How stable is carbon?
The stability of carbon fiber results from the strong chemical bond between the carbon atoms, which are arranged in a hexagonal pattern, providing unique strength and stiffness values.
The tensile strength of carbon fiber, a measure of the material's resilience, is around 3,500 to 7,000 MPa, which means that it is significantly stronger compared to steel, which has a tensile strength of around 500 MPa. Carbon fiber also has high stiffness, which means it deforms little under load. These properties allow carbon fiber to withstand a wide range of stresses without breaking or deforming.
In addition, carbon fiber has a low density, which means that it is significantly lighter than other materials such as steel or aluminum for the same strength. This makes it ideal for applications where weight savings and high strength are required, such as automotive, aerospace, aerospace, sports equipment and construction industries.
How do I get scratches out of carbon?
Note: Our CRBNCNCPT products are always covered with a protective coating that gives scratches little chance.
Removing scratches from carbon fiber can be tricky as the material is delicate. and improper handling can lead to further damage. Here are some steps you can follow to safely and effectively remove carbon fiber scratches:
- Thoroughly clean the affected area with a mild detergent and water to remove dirt and debris. Then dry the surface with a soft cloth.
- Use a fine sandpaper (e.g. 1000-2000 grit) and water to gently remove the scratches. Sand in a circular motion, applying only light pressure. Make sure that the sandpaper is always wet so as not to damage the material.
- After removing the scratch, buff the surface with a polishing paste and a soft cloth or a low-speed buffing machine. Work in circular motions to achieve an even shine.
- Finally, apply a coat of clear coat or carbon fiber sealer to protect the finish and maintain the shine. Allow the paint or sealer to dry and cure according to the manufacturer's instructions.
For deep scratches or damage that could affect the structure of the material, you should seek the help of a professional.
Can carbon rust?
Carbon cannot rust because rusting is a process unique to ferrous metals such as steel. Rust occurs when iron reacts with oxygen and moisture in the air, resulting in the formation of iron oxides. Because carbon fiber is made from carbon fiber and contains no iron, it is not prone to rusting.
What is forged carbon?
Forged carbon, also known as forged carbon, is an innovative form of carbon fiber composite.
Forged carbon consists of short carbon fibers that are randomly arranged, resulting in a unique look and impressive properties.
How is Forged Carbon made?
The manufacturing process of forged carbon consists of several steps:
The preparation: Short carbon fibers are mixed with a thermoplastic or thermosetting resin to obtain a malleable mass.
Shaping: The mixture is poured into a mold that corresponds to the desired final shape of the component.
Curing: The mold is closed and cured under high pressure and temperature, causing the resin matrix to harden and giving the forged carbon its final shape and strength.
What makes Forged Carbon so special?
Forged carbon is characterized by a number of advantages over conventional carbon fiber composites. One of the standout aspects is its strength and durability. This unique composite material is less prone to cracking and delamination compared to traditional carbon materials.
Another significant benefit of Forged Carbon is its design flexibility. The random arrangement of the fibers allows the material to be molded into complex and irregular shapes. This offers designers greater creative freedom when developing new products and applications.