Semicera offers high-performance carbon-carbon composites designed for applications that require superior strength and thermal stability. These advanced materials are well suited for extreme environments, with exceptional durability and oxidation resistance. These composites maintain integrity under high pressure and temperature, making them a reliable choice for critical applications. Trust Semicera to provide innovative carbon-based material solutions. We look forward to being your long-term partner in China.
Der Carbon Carbon Composites offered by Semicera are engineered to deliver exceptional performance in high-temperature and high-stress environments. These advanced materials, also known as Reinforced Carbon–Carbon Composites (RCC), provide superior strength, thermal stability, and resistance to oxidation, making them ideal for a range of demanding applications, from aerospace to industrial machinery.
Semicera’s Carbon Carbon Composites are produced using high-quality carbon carbon fiber, delivering a combination of lightweight properties and high strength. This makes them particularly suited for applications requiring materials that can withstand extreme heat and stress, such as in space vehicles, high-performance brake systems, and specialized industrial components.
The structure of C-C composites is reinforced through the use of carbon fiber-reinforced carbon (CFRC), ensuring the materials maintain their integrity even in extreme conditions. The composition of carbon carbon materials and composites from Semicera also provides high durability and oxidation resistance, extending the lifespan of the components made from them.
These Carbon Carbon Composites are an essential choice for industries requiring materials that balance strength, heat resistance, and weight, making them a top option for critical applications. Whether you need C-C composites for aerospace, automotive, or industrial uses, Semicera’s products ensure top-tier performance.
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Technische Daten von Kohlenstoff/Kohlenstoffverbundstoff |
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Index |
Einheit |
Wert |
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Schüttdichte |
g/cm3 |
1.40~1.50 |
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Kohlenstoffgehalt |
% |
≥98.5~99.9 |
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Asche |
Ppm |
≤65 |
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Wärmeleitfähigkeit (1150 ℃) |
W/mk |
10~30 |
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Zugfestigkeit |
MPA |
90~130 |
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Biegerstärke |
MPA |
100~150 |
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Druckfestigkeit |
MPA |
130~170 |
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Scherfestigkeit |
MPA |
50~60 |
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Interlaminare Scherfestigkeit |
MPA |
≥13 |
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Elektrischer Widerstand |
Ω.mm2/m |
30~43 |
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Wärmeleitkoeffizient |
106/K |
0.3~1.2 |
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Verarbeitungstemperatur |
℃ |
≥2400℃ |
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Militärqualität, vollständige chemische Dampfablagerungsofenablagerung, importierte Toray Carbonfaser T700 vorgewob |
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Kohlenstoffkarbonverbundwerkstoffe:
Carbon carbon composites (Carbon-fiber-reinforced carbon composites) (CFC) is a kind of material formed by high strength carbon fiber and carbon matrix after graphitization enhancement processing.
Es kann in der Hochtemperaturumgebung verschiedener Struktur, Heizung und Schiff häufig verwendet werden. Im Vergleich zu den traditionellen technischen Materialien hat Carbon Carbon Composite die folgenden Vorteile:
1) hohe Stärke
2) Hochtemperatur bis zu 2000℃
3) Wärmeschockwiderstand
4) Niedrigere Wärmeausdehnung
5) Kleine Wärmeleistung
6) Ausgezeichnete Korrosionsbeständigkeit und Strahlungsbeständigkeit
Anwendung:
1. Luft- und Raumfahrt. Aufgrund des Verbundmaterials weist eine gute thermische Stabilität, eine hohe spezifische Festigkeit und Steifheit auf. Es kann für die Herstellung von Flugzeugbremsen, Flügel und Rumpf, Satellitenantenne und Stützstruktur, Sonnenflügel und Hülle, große Trägerraketenschale, Motorschale usw. verwendet werden.
2. Die Automobilindustrie.
3. Das medizinische Bereich.
4. Wärmeinssierung
5. Heizeinheit
6. Ray-Insulation
