How to Solve the Rubber of Rainbow Fusible Lining

Update:04 Jan 2018
Summary:

Fusible lining plastic how to do? Many people will have […]

Fusible lining plastic how to do? Many people will have a headache for this problem, and now the more and more thin clothes on the requirements of the Fusible Lining is also getting higher and higher. The thin adhesive linings developed for thin fabrics are favored, especially for functional bonded linings developed specifically for difficult-to-heat fabrics, which play an important role in those ultra-thin garments.

Thin lining and fabric lining favorite problem is through plastic, adhesive lining plastic how to do? We need to look for the problem in two ways: one is the adhesion lining and fabric matching, the other is the bonding conditions and methods of operation.

Whether it is fusible lining or with a plastic auxiliary cotton, one side are attached with hot melt adhesive, hot melt adhesive has its melting point, the temperature is too low will not melt or completely melt, and the temperature is too high will lead to loss of viscosity glial sublimation , The general adhesive lining ironing temperature should be controlled at 120 ℃ ~ 150 ℃, the thickness of the lining of thick lining can be relatively lower than some.

Under normal circumstances, the thin fabric will use a very thin glue point of the thin adhesive lining, the adhesive lining can be closely together with the fabric stick together, but the disadvantage is that the glue on the fusible lining is also more likely to infiltrate the fabric from the front , In addition to affect the overall effect of apparel or even destroy the whole outweigh the benefits of clothing, so for the thin lining adhesive lining compatibility is sure to be the first test sample proofing, in case of the above problems to change the small gel point, the density is slightly Comb a little adhesive lining. Of course, in addition to the reasons for the fusible lining itself, the human operation techniques and bonding conditions may also appear infiltration, basically from the time, temperature, pressure to fine-tune these three areas.