The Strength and Versatility of Fiberglass Laid Scrim

Fiberglass laid scrim is an incredibly strong material that can increase the strength, durability and longevity of many different products. It is also lightweight and easy to handle.

Laid scrim is a type of economic reinforcing non-woven fabric made from continuous filament yarn(Fiberglass, or Polyester etc). It has longitudinal warp threads and transverse weft threads bonding with each other by chemical process.

Durability

Nonwovens are becoming increasingly used in a wide variety of products such as nappies, wipes, filtration media or building materials. These materials are often reinforced with scrims to increase their durability against mechanical stress and to extend their service life. These scrims can be integrated during the manufacturing process by calendering or extrusion and can also be applied to existing products.

Laid scrims are cost-effective reinforcing fabrics with an open mesh construction. The manufacturing process chemically bonds the yarns together and enhances them with unique characteristics that make them suitable for a wide range of applications. They are commonly used in the reinforcement of laminates as papers, non-wovens, foils or films to increase their tear strength, dimensional stability and facilitate handling.

Laid scrim can be coated with fire retardant material to comply with the strict requirements of many industries. This ensures that the fabric is safe for use and will not contribute to the spread of flames. The coated fabric is also available in a range of colors.

Versatility

The strength and versatility of Fiberglass Laid Scrim make it an excellent choice for use in a wide variety of applications. Whether you’re building a house or designing an airplane, this reinforcement can improve the strength and durability of your project.

Typically laid scrims are used as reinforcement for all kinds of none-woven fabrics, such as fiberglass tissue, polyester mat and wipes and some top ends like medical paper. It helps to increase the tensile strength of the none-woven fabrics while adding very little unit weight.

Most non-woven scrims are made of multi-filament yarns such as polyester, cotton, glass or rayon. These yarns are bonded together by using common thermo-plastic binder systems such as polyvinyl alcohol or polyvinyl acetate. The advantage of this type of lay-scrim is that it can be easily processed through calendering or extrusion and bonding. Development work is also underway with heat activatable and other nonconventional yarn joining techniques. In addition, it can be used with sonic or print bonding.

Lightweight

Fiberglass laid scrim is an incredibly lightweight material, allowing it to be used in a wide variety of applications without adding excess weight or bulk. Additionally, it is easy to handle and can withstand high temperatures.

The laid scrim manufacturing process chemically bonds non-woven yarns together, enhancing the fabric with unique characteristics that make it an ideal material for various products and projects. It is especially suited for floor coverings that require increased tensile or puncture resistance as well as dimensional stability.

The BAFA-laid scrims are capable of being impregnated with phenol-, vinyl ester- or epoxy resins. They can be cut and punched and are easily processed in automated production lines or by automatic Fibre Placement (AFP) systems. They are also hot sealing and epoxy resin friendly, enabling them to be used in autoclaves. In addition, they are highly dimensionally stable and have excellent cuttability and punchability, making them an ideal material for use in prepregs.

Heat Resistance

The fiberglass strands that comprise laid scrim are extremely durable, which makes this product ideal for use in construction and aerospace applications. It is also heat resistant, which helps to protect the materials it is woven into from damage caused by extreme temperatures.

Laid scrim is a cost-effective reinforcement fabric constructed using continuous filament yarns in an open mesh instruction and chemically bonded together. It can be reinforced with a variety of materials to meet specific needs, including paper, non-woven, foils and films.