Nonwovens are an excellent choice for a wide variety of household applications, from filtering and cleaning to aesthetic enhancement. Many high-quality nonwovens are suited for kitchens, bedrooms, and living rooms. These fabrics provide practical solutions while remaining aesthetically pleasing. This type of material has evolved for quite some time, and has already raised the bar for what fabrics can do. Learn more about the many benefits of laminated non woven fabrics below.
The three-layered composition of laminated non-woven fabric consists of a first layer 21 and a second layer 22. These layers are about 50 to 80% of the overall thickness of the fabric. Each layer has a different color and is also biodegradable. Laminated non-woven fabrics are a versatile choice for many industries, including agriculture, clothes, and transportation. Nonwoven fabrics are often made of two or more layers, making them an excellent choice for packing and protecting food products.
The best machines for lamination of nonwovens feature dedicated tension and quality controls. This ensures a high-quality final product. These machines are part of a larger system, which requires them to operate with one another. The fabric must be able to seamlessly transition from one machine to the next without losing its properties. The characteristics of a good laminated nonwoven fabric depend on its thickness, average pore size, and other factors.
Nonwoven laminates are also commonly used in the medical field. They create breathable textiles, which prevent moisture from entering the garment while preventing liquids from seeping in. The outer layer of the nonwoven fabric is soft to the touch and robust and long-lasting. These characteristics make them an excellent choice for surgical gowns and masks. These products are also waterproof and are suitable for printing. In addition to being durable, laminated non woven fabrics are also highly breathable, allowing patients to stay comfortable during long procedures.
The present invention relates to a laminated non-woven fabric for use in filters, as well as a method for making such a fabric. It provides a laminated non-woven fabric that provides superior filtering efficiency while retaining its elasticity. Furthermore, the laminated non-woven fabric produced by this method has long life and good filtration efficiency. The invention is applicable to many different kinds of filters. It is hoped that it will help filter airborne contaminants and liquid materials.
The first non-woven fabric is approximately 0.3-2.0 mm thick and has an average pore size of 5-30 mm. The second non-woven fabric, meanwhile, has an average pore size of 20-100 mm. The basis weight of the fabric is generally between 20-100 g/m2, and the gas permeability is between 15 and 300 cc/cm2/sec. For a high-quality laminated non-woven fabric, the water jet rod 1 is reciprocated in a direction perpendicular to the feeding direction.