Carbon Glass Tape is a type of fabric that consists of unidirectional carbon fibers with a bonded wire made of glass fibers. It has a weight of 280g/m² and a width of 3.5cm.

Carbon-Kevlar Fabric is a bidirectional fabric made of carbon and aramid fibers with a weight of 165 g/m². The fibers are oriented in both the warp and weft directions, providing balanced strength in both directions. The fabric is coated with plastic and made from E-glass, with a roll width of 120 cm.

Basalt Mat is a reinforcement material made from continuous basalt fibers, with a two-layer structure consisting of fabric and mat. The roving fiber reinforcement is oriented at 0°, +45°, -45°, and 90° and woven together to provide high bending and rotational stiffness. This makes it ideal for use in components such as wind turbine rotor blades. The fabric and mat are bonded together, which reduces the need for additional clothing and impregnation steps during production.

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Core mat: This is a glass fiber material that has been pre-compressed and interwoven with embedded thermoplastic microspheres to increase its volume. The core also has a polypropylene fleece for improved flow. It is perfect for creating lightweight and stable laminates, especially for sandwich structures. You can get this product in 6mm, 8mm, and 10mm thicknesses and it can be combined with different glass layers like lay, fabric, and glass mat for the outer layers. The resin impregnation also extends to the adjacent layers for improved performance.

Flow.Mat PAN is a composite product of two fiberglass mats woven with a liquid medium in the middle. It features a PAN surface veil on the gelcoat-facing side to prevent fiber breakdown on the surface. It is primarily used for closed procedures as a reinforcing fiber, with thicknesses of 2-5.5 mm per layer, to achieve high surface quality.

The glass combination mat is a multiaxial layer that includes volumized E-glass fiber (+/- 45°) and an extra layer of polypropylene fleece (flow medium) in the middle. Resin impregnation, including the adjacent glass coatings, occurs over the flow medium in the core. It is drapable and conforms to complex moldings, with thicknesses ranging from 2-5 mm.

Core Mat is made of endless winding threads of 25tex and 50tex in the core, bound by a slightly soluble styrene mat binder. It meets DIN 61853 requirements and is suitable for reinforcing polyester, epoxy, and vinyl ester resins, as well as PUR foam reinforcement. It is recommended for use in press, vacuum, or injection applications, with good impregnation properties and surface quality suitable for panels and moldings with low to medium deformation.

This material is a polyester-based fiber reinforced composite that contains embedded thermoplastic microspheres for increased volume and elasticity. It has good drapability when wet, similar to other similar materials such as Coremat and Upica.

On the other hand, the interwoven glass fiber material is pre-compressed and volumized with embedded thermoplastic microspheres, making it perfect for wet-on-wet application to produce lightweight, stable and uniform laminates. The material can fully absorb up to 40% of the same resin used in the outer layers, resulting in excellent properties.

These sandwich materials can replace traditional core materials like balsa wood and PVC foam, while also conforming to complex 3D shapes. They are suitable for a range of applications, including in marine and transportation industries.

This material is made of fiberglass and is volumized by embedding thermoplastic microspheres. It is an ideal choice for wet-on-wet lamination and is particularly suitable for products with thin walls due to its low resin absorption and light weight. It has excellent printing properties and ensures homogeneous laminates. Compared to polyester-based materials, it has higher bending stiffness and tensile strength.

These sandwich materials have the potential to replace conventional core materials like balsa wood and PVC foam, while also being able to conform to complex three-dimensional shapes. They find a wide range of applications in industries such as marine and transportation.

This E-glass fiber fabric is enhanced with thermoplastic microspheres to increase its volume and improve its properties. It has excellent drapability, low resin absorption, and high strength-to-weight ratio, making it ideal for high-tech fiberglass products that require strength and durability. It can be used in combination with carbon and aramid fibers to create even stronger composites. Additionally, the SN quality is mechanically post-processed to improve flexibility and drapability.

This roving is made up of various E-glass yarns that have been enhanced with fibers. It can be processed using conventional fiber spraying or cutting equipment. The resulting wet-on-wet production creates fiberglass parts that have the properties of a light sandwich laminate and the perfect homogeneity of solid laminates. The thickness of the cores can be adjusted as needed to achieve the desired properties.

This E-glass fabric is stitched with a mat that weighs between 150-600 g/m². It has good drapability, low resin absorption, and high strength properties at a simultaneously low weight. This makes it well-suited for high-tech fiberglass products that require strength and durability, particularly when used in combination with carbon and aramid fibers.

A Polyamide Fabric that can be used as a roughness-enhancing layer for bonding polyester and epoxy laminates. The fabric is typically applied as the first or last layer of the laminate and removed shortly before bonding to other parts. Its abrasive texture creates a consistent rough surface, eliminating the need for further grinding of the adhesive surface before lamination. This fabric is particularly useful in applications where a strong bond is essential.

Core mat is a glass fiber material that uses embedded thermoplastic microspheres to achieve high volume. It is ideal for use as a surface material on laminates because it has low resin absorption and is lightweight. The resulting surface is smooth and has good laminate homogeneity and mechanical strength. Even if the material overlaps or is uneven, it does not deteriorate the surface of the laminate. It can be laid out dry after applying gelcoat or a barrier coat, or after pre-laminating with a glass mat, and then impregnated with resin using the IP procedure.

This is a particularly fine-grained C-glass fleece that uses a styrene-soluble binding agent. C-glass offers improved chemical resistance and is treated with a silane-based threading equipment.

This synthetic nonwoven veil is designed for improving the surface of molded parts with a chemical protective layer using polyester, epoxy, and vinyl ester resins. It can be processed by pressing, hand application, or low-pressure application, and is suitable for curved parts. The nonwoven veil is made from soluble polyacrylonitrile (PAN) fibers that are compatible with styrene. It is commonly used for general purpose applications, with special protective layers required for higher chemical loads. Additionally, it is suitable for reinforcing and controlling the layer thickness of roofing layers made with polyester resin, as it is highly elastic and permeable.

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