Flame Retardant Carbon Fiber Description:
The Flame Retardant Carbon Fiber from Stanford Advanced Materials is a high-temperature curing carbon fiber prepreg with excellent glass transition temperature (Tg ≥ 240°C) and toughness. It is designed for applications requiring high heat resistance and superior mechanical properties. The material offers strong workability, making it suitable for molding, vacuum bagging, and autoclave processing. Its high-temperature curing capability (180°C for 2 hours, followed by 1 hour at 200°C) ensures robust military and civilian composite manufacturing performance.
Flame Retardant Carbon Fiber Specifications:
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Exterior Appearance
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Black Plain
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Material
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Carbon Fiber - Epoxy Resin Matrix
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Length
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100m/roll
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Width
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1000±10 mm
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Resin Content
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Customized
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Prepreg Surface Density
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Customized
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Volatile Matter Content
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<1.5%
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Mechanical Properties
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Tensile Strength (MPa)
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≥550
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Compressive Strength (MPa)
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≥500
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Flexural Strength (MPa)
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≥650
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Short Beam Shear (MPa)
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≥50
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Fiber Volume Fraction
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55%±3
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Flame Retardant Carbon Fiber Applications:
1. Aerospace Components: It is used in aircraft structures, engine components, and heat shields where high-temperature resistance and durability are crucial.
2. Defense and Military Equipment: Ideal for manufacturing parts in military vehicles, drones, and ballistic armor, where toughness and high glass transition temperatures are needed.
3. Automotive Industry: Used in high-performance automotive parts such as brake components, exhaust systems, and structural parts for racing cars.
4. Industrial Applications: In manufacturing tools, molds, and machinery that are exposed to high temperatures during operation.
5. Electronics: Applied in heat-sensitive environments, such as circuit boards or casings that require both mechanical strength and heat resistance.
Flame Retardant Carbon Fiber Packing:
Our Flame Retardant Carbon Fiber is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
Flame Retardant Carbon Fiber FAQ:
Q1: What curing process is required for this material?
A1: The recommended curing process is 180°C for 2 hours, followed by an additional hour at 200°C to ensure optimal performance and stability.
Q2: What are the common forming methods for this material?
A2: This carbon fiber prepreg is compatible with multiple forming techniques, including molding, vacuum bagging, and autoclave processing.
Q3: Is this material suitable for outdoor or harsh environments?
A3: Yes, its flame-retardant properties and high-temperature resistance make it ideal for use in harsh environments, including those exposed to high heat, fire risk, and extreme weather conditions.
