There are several different methods of applying Garment Interlining. Usually, the interlining is fused. During the fusing process, the adhesive is melted between the outer fabric and the interlining. Typically, the split between the outer and the interlining is 50:50 and should have a peel bond strength of at least 16N/50mm. Fusing temperatures vary with interlining composition but are usually around 130C.

The most important requirement of a fusible interlining system is to provide time, temperature, and pressure to fuse the fabric to the outer fabric. This ensures that the fabric interlining is fused reliably to the outer fabric. Hence, fusing systems are designed to meet these needs. The fusing time is set by the feed sheet speed. The fused parts are then allowed to cool to room temperature. The interlining and outer fabric are then packaged for retail and distribution.

Garment interlining serves both functional and aesthetic purposes. It reinforces the garment form by adding extra stability, warmth, and stiffness. It also prevents deformation. Interlining also reinforces the component of the garment. It can be made of any type of material. Although it is generally thick, flexible, and soft, interlinings are essential in enhancing the quality of the garment. However, not all interlinings are designed to provide the same benefits.

Generally, interlinings have two main types - fusible and non-fusible. Fusible interlinings are fused to the face fabric. The fusing process determines the parameters of a particular face fabric and interlining. The process should be regulated so that the customer will be happy with the finished garment and the quality of the fused components. Generally, the article number of the face fabric must be written in the style specification.

100% Polyester High Grade Light Weight Quilt Home Textile Fusible Non Woven Interlining

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