Abstract
The consumer’s enhanced awareness of garment quality, appearance, and related eco-safety production manufacture means that not only shell fabrics, but also accessory materials should be paid much more attention. Interlining is the one of the most important and state of the art accessory materials that currently lacks review and exploration. This article comprehensively demonstrates an organizational integration of interlinings which includes their history, classification, manufacture, characteristic, properties, function, fusing technology and application. In addition, the article highlights a new innovation of printable interlining, which could replace the traditional fusible interlinings because of its cost-effectiveness, its simple process and its environmentally-friendly nature.
Highlights
Interlining is a layer of fabric inserted between the shell fabric and the lining of a garment to give clothing a suitable appearance and stability
Previous research articles concerning the properties and functions of shell fabrics fuse different interlinings by suitable fusing technology [1,2,3,4,5,6,7], there is a lack of integral comprehension of the knowledge of fusible interlinings
Researchers never stop their forward process on the way to the new areas of material and technology, and this has led to printable interlinings being created in place of traditional fusible interlinings
Summary
This system effects fusing by placing a hand iron on top of the assembly to be fused (interlining uppermost) Certain interlinings, especially those that can be fused at comparatively low temperatures, low pressure and short times, may be suitable for fusing by hand iron. Especially those that can be fused at comparatively low temperatures, low pressure and short times, may be suitable for fusing by hand iron This system effects fusing by placing the assembly to be fused between the platen of a steam utility press normally used for intermediate or finishing-off pressing of made-up garments. These system effect fusing by placing the assembly to be fused between metal platen, one or both of which can be heated This system affects the fusing of the assembly by applying high frequency waves to the materials, which are placed between the high frequency generating top and bottom plates. These systems effect fusing by holding the assembly to be fused with a conveyor belt whilst passing through a heat source and either simultaneously or subsequently applying pressure
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