S-glass chopped strand, comprised of short S-glass fibers known for their exceptional tensile strength, is a high-performance reinforcement material. It is instrumental in reinforcing composite structures, such as aircraft components, automotive parts, and construction materials, contributing to enhanced durability and strength. Its versatility and high-performance features make S-glass chopped strand a crucial element in various applications requiring superior mechanical properties.
S-glass fibers possess a higher tensile strength than E-glass fibers. The tensile strength of S-glass is typically about 4,500 MPa (650 ksi), which is approximately 40% higher than that of E-glass, which has a tensile strength of about 3,450 MPa (500 ksi). This makes S-glass fibers more suitable for applications where high strength is critical.
S-glass has a higher modulus of elasticity compared to E-glass, indicating that S-glass is stiffer. S-glass’s modulus is typically around 87Gpa(12.6Msi), while E-glass has a modulus of about 72 GPa (10.5 Msi). The higher modulus means that S-glass fibers are less likely to deform under load, making them ideal for high-performance applications.
S-glass fibers retain their high strength and modulus at higher temperatures compared to E-glass. S-glass can be used at temperatures up to about 1000° F (540°C), significantly higher than E-glass, which starts to lose its mechanical properties above 600°F (315°C). This makes S-glass a better option for applications involving high thermal loads.
S-glass has better impact resistance due to its high-energy absorption capability. This means that structures made with S-glass composites can withstand more impact before failure, which is crucial for applications such as military vehicles, aerospace, and sporting goods.
| Resin Matrix | Filament Diameter(µm) | Chopped Length(mm) | Weight(kg/bag) |
| EP/UP/PE/VE/PF/PU/PP/PC/PA/ABS | 8, 9 | 3, 6, 9, 12 | 20 |