Glass Fiber Chopped Yarns
It’s made of 100% inorganic E glass fiber yarn, and chopped in a customized length to ensure uniform dispersion, This advanced composition guarantees exceptionally low thermal conductivity (minimal heat loss), making it an indispensable insulation material widely utilized across the automotive, electronics, and construction industries.
Product Overview
Precision-cut E-glass fibers are engineered for optimal flow and uniform dispersion in downstream manufacturing. Combining a high softening point of 840°C with exceptional physical properties, specifically high tensile strength and low elongation, these chopped yarns go beyond standard insulation. They serve as the critical raw material for producing high-temperature insulation nonwoven blankets.
This unique synergy of thermal resistance and structural stability enables our glass fibers to be seamlessly applied across diverse, high-demand markets, providing reliable protection and reinforcement for the automobile, aircraft, electronics, and construction industries.
Key Features
- 100% inorganic fiber
- High temperature resistance
- Exceptional Thermal Stability
- Precision Dispersion for Manufacturing
- Non Combustibility
Main Applications
- Nonwoven Blankets
Type | E glass fiber |
Fiber Filament | 9µm±2 |
Fiber Length | >50mm |
Resistant Temp. | 650℃ |
Color | White |
Mostiture Content | ≤2% |
Heat Loss | ≤3%(650℃x4hours) |
40' Loadable q'ty | 40Tons |
Specified specifications on request
- Needle punch processing
- How does E-glass chopped yarn perform under continuous high temperatures?
Engineered for exceptional thermal stability, our E-glass chopped yarns offer a continuous resistant temperature of 650°C and a high softening point of 840°C. They are 100% inorganic and completely non-combustible, they guarantee minimal heat loss.
- How do LFJ's 9µm filament diameter and >50mm precision cut enhance nonwoven blanket manufacturing?
Generic chopped fibers often suffer from uneven dispersion, causing weak spots and structural defects in insulation mats. By strictly controlling our fiber filament diameter to 9µm (±2) and ensuring a precision-cut base length of >50mm, we create highly predictable flow dynamics during your production process. This unique synergy of high tensile strength and uniform dispersion allows manufacturers to produce high-density, defect-free nonwoven blankets that meet the most stringent high performance standards.
