Chopped Strand Mat
Chopped Strand Mat is composed of randomly oriented glass fibers bound together by a powder or emulsion. This type of mat is particularly versatile, providing excellent strength and uniformity to a variety of composites. It is commonly used in marine, automotive, and recreational industries for applications such as hulls, automotive body panels, and tanks. Chopped Strand Mat is easily conformable, making it ideal for applications where a smooth, strong finish is essential.
Cloth
Fibreglass Cloth offers a traditional weave pattern, making it suitable for applications where a higher strength-to-weight ratio is required. It is often used in the aerospace industry for constructing lightweight yet sturdy structures. Additionally, it is employed in creating laminates, reinforcing repairs, and in applications where a premium cosmetic finish is crucial. The textile nature of the cloth allows it to be easily molded and layered for improved composite performance.
Combo Mat
Combo Mat integrates woven roving with chopped strand mat, enhancing the mechanical strength while maintaining ease of use. This combination is particularly beneficial for larger projects such as wind turbine blades and large marine vessels, where both strength and speed of manufacturing are key. The fabric is also used in tank and pipe construction, providing reinforcement and durability.
Core Mat
Core Mat serves as a bulking agent, increasing the thickness of the laminate without adding significant weight. It is designed to conform to the shape of the mold, providing excellent impact resistance. Widely used in the marine and transportation industries, Core Mat is used to enhance stiffness in applications such as boat decks and vehicle partitions, where lightweight strength is paramount.
Fibreglass Tape
Fibreglass Tape is ideal for reinforcing seams and joints. Its narrow width and woven pattern make it perfect for precision work in structural and cosmetic reinforcement, particularly in the repair of boats, piping systems, or even surfboards. The tape is popular across marine, industrial, and hobbyist applications due to its ease of use and strong bonding capabilities.
Honeycomb Structural Sheets
Honeycomb Structural Sheets provide a lightweight structure with outstanding mechanical strength and stiffness. Used extensively in aerospace and automotive industries, these sheets form a core material in sandwich panel constructions. They offer excellent energy absorption and insulation properties, making them ideal for high-performance and fuel-efficient design.
Mosaics
Fibreglass Mosaics deliver decorative solutions with the durability and flexibility of fibreglass. Used in architectural design and construction, these mosaics provide a lightweight option for cladding, offering weather resistance and aesthetic appeal. They are applicable in both interior and exterior decoration, transforming ordinary spaces into visually striking environments.
Quad Axial Mat
Quad Axial Mat features fibers oriented in multiple directions, offering superior multi-axial reinforcement. Ideal for high-load-bearing applications, it is used in industries such as wind energy and marine. This mat type ensures optimal strength and performance in components where torsional and flexural rigidity are critical, such as masts, beams, and frame structures.
Surface Tissue
Surface Tissue, or veil, is used to enhance the surface finish of composite structures. It is applied as the surface layer in applications that demand a smooth finish, such as decorative panels or car exteriors. Surface Tissue also improves the chemical resistance of composites, making it essential in the chemical processing and storage industries.
Vacuum Bagging & Infusion
Vacuum Bagging & Infusion methods are employed to create high-strength, low-weight composite structures. This technique involves the consolidation of fibre layers under vacuum pressure, ensuring a consistent resin distribution and reducing void content. Used extensively in aerospace, automotive, and sporting equipment, this method improves material performance and operational efficiency.
Woven Roving
Woven Roving provides a heavy-duty fabric option with excellent tensile and flexural strength. It is predominantly used in the construction of large, load-bearing composite parts, such as boat hulls, wind turbine blades, and structural panels. The interlacing of fibers in woven roving enhances mechanical properties, making it ideal for rigorous industrial applications.