Unidirectional Ramie Prepreg Description:
The Unidirectional Ramie Prepreg is an eco-friendly composite material made from biomass resin and ramie fibers, known for its excellent layup processability. This prepreg features a high glass transition temperature (Tg ≥ 160°C), ensuring thermal stability and performance after curing. The ramie fibers, derived from renewable plant sources, provide sustainability while their hollow structure contributes to effective damping and vibration absorption. This makes the prepreg particularly suitable for applications requiring enhanced shock resistance, damping, and acoustic properties. Compatible with various manufacturing techniques, including compression molding, vacuum bagging, and autoclave processes, it is ideal for producing high-performance composite components in environmentally conscious industries.
Unidirectional Ramie Prepreg Specifications:
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Material
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Ramie- Epoxy Resin Matrix
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Color/Appearance
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White Strip
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Width
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1000 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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Unidirectional Ramie Prepreg Applications:
1. Automotive: Used in components that require lightweight and sound-damping properties, such as interior panels and underbody insulation.
2. Aerospace: Applied in structural parts where weight reduction and thermal stability are critical.
3. Consumer Electronics: Employed in casings and components to enhance acoustic performance and vibration absorption.
4. Sporting Goods: Used in equipment like bicycles and other performance gear for improved durability and shock resistance.
5. Construction: Suitable for soundproofing materials and structural reinforcements in eco-friendly building projects.
Unidirectional Ramie Prepreg Packing:
Our Unidirectional Ramie Prepregs are carefully handled during storage and transportation to preserve the quality of our product in its original condition.
Unidirectional Ramie Prepreg FAQ:
Q1: What materials are used in the Unidirectional Ramie Prepreg?
A1: The prepreg is made from biomass resin and ramie fibers, making it an eco-friendly composite material.
Q2: What is the glass transition temperature (Tg) after curing?
A2: The prepreg achieves a glass transition temperature (Tg) of ≥160°C after curing, ensuring good thermal stability.
Q3: What are the main advantages of using this prepreg?
A3: Its primary advantages include sustainability due to renewable materials, excellent damping and vibration absorption properties, and compatibility with various manufacturing processes.
