The 1708 Multi-Axial Fiberglass Fabric is a type of composite reinforcement material used in various industries, particularly in manufacturing composite structures. This fabric is characterized by its multi-axial construction, meaning it consists of layers of fiberglass fibers oriented in different directions.
The "1708" designation refers to the specific fiber weight distribution in the fabric. It indicates approximately 1700 grams (or 1.7 kilograms) of fiberglass per square meter in the fabric, making it relatively dense and robust. The weight distribution is typically achieved by combining layers of unidirectional fiberglass with a layer of stitched fiberglass.
The fabric is commonly 50 inches (or approximately 127 centimeters) wide, providing a suitable width for various composite applications. The width allows for efficient and convenient handling during the manufacturing process, enabling easy cutting, laying, and positioning of the fabric on the desired surfaces.
The multi-axial construction of the fabric offers significant advantages in terms of strength and stiffness. The fibers are oriented in multiple directions, typically at 0°, 90°, and ±45° angles, which enhances the fabric's ability to withstand different types of loads, including tension, compression, and shear forces. This multidirectional reinforcement improves composite components' overall structural integrity and load-bearing capacity.
The 1708 Multi-Axial Fiberglass Fabric is commonly used in the construction of high-performance composite parts, such as boat hulls, automotive components, wind turbine blades, aerospace structures, and sporting goods. Its versatile nature allows for tailored reinforcement in specific areas, optimizing strength and minimizing weight.
When working with this fabric, it is important to follow appropriate manufacturing techniques and ensure proper resin impregnation and consolidation to achieve optimal mechanical properties and a durable composite structure.
Overall, the 1708 Multi-Axial Fiberglass Fabric is a reliable and widely used material in the composites industry, providing enhanced strength, stiffness, and versatility for a variety of applications.