Now You Know Methods of Resin Coating for Fusible Interlining
Tuesday, 22 January 2019
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Methods of Resin Coating for Fusible Interlining
Noor Ahmed Raaz
B. Sc in Textile Engineer (CU)
Specialized in Apparel Manufacturing
Merchandiser, A.M.C.S Textile Ltd (AEPZ)
Email: raju.uttara105@gmail.com
B. Sc in Textile Engineer (CU)
Specialized in Apparel Manufacturing
Merchandiser, A.M.C.S Textile Ltd (AEPZ)
Email: raju.uttara105@gmail.com
Methods of Resin Coating:
Resin as a coating material is applied on the base fabric by different methods. Methods of resin coating affect the properties of fusible interlining, which are described below:
I. Scatter coating: Resin is sprayed on the base fabric by a spray head. Then temperature and pressure are used to fix the resin on the base fabric. The molecular size of the resin varies between 150 to 400 microns. Properties of interlining is not all through uniform in this type of coated interlining, hence this type of interlining is cheaper than others.
II. Dry–dot–coating: Powder of resin is applied on the base fabric in dot form by an engraved roller, then the base fabric is passed through an oven, where due to temperature the resin melts and due to pressure of roller the resin sticks on the base fabric. Number of dots per cm may be 3 to 12 and size of resin particles vary from 80 to 200 microns. For fine fabric finer dots and for coarser fabric larger dots are used. Property of this type of interlining is all through uniform.
III. Paste interlining: Resin powder is converted into paste by the use of chemicals and water. Then the paste is printed on the base fabric. Then by applying temperature water and chemicals are evaporated from the base fabric. Very fine dots are produced by printing technique with resin size 1 to 80 microns. Property is all through uniform.
IV. Film coating: Resin is first melted by the use of temperature and then applied on the base fabric as a very fine film on one side of the fabric. Polyethylene as a resin is used for film coating. Flexibility of film coated interlining is quite less than others.
V. Emulsion coating: Resin is made as emulsion form with the use of chemicals and water. Then through this emulsion base fabric is passed which picks up emulsion. By the use of a squeeze roller emulsion take up is controlled. Then the fabric is passed through an oven where the interlining is dried. This type of interlining is very hard after fusing.
I. Scatter coating: Resin is sprayed on the base fabric by a spray head. Then temperature and pressure are used to fix the resin on the base fabric. The molecular size of the resin varies between 150 to 400 microns. Properties of interlining is not all through uniform in this type of coated interlining, hence this type of interlining is cheaper than others.
II. Dry–dot–coating: Powder of resin is applied on the base fabric in dot form by an engraved roller, then the base fabric is passed through an oven, where due to temperature the resin melts and due to pressure of roller the resin sticks on the base fabric. Number of dots per cm may be 3 to 12 and size of resin particles vary from 80 to 200 microns. For fine fabric finer dots and for coarser fabric larger dots are used. Property of this type of interlining is all through uniform.
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| Fusible interlining |
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IV. Film coating: Resin is first melted by the use of temperature and then applied on the base fabric as a very fine film on one side of the fabric. Polyethylene as a resin is used for film coating. Flexibility of film coated interlining is quite less than others.
V. Emulsion coating: Resin is made as emulsion form with the use of chemicals and water. Then through this emulsion base fabric is passed which picks up emulsion. By the use of a squeeze roller emulsion take up is controlled. Then the fabric is passed through an oven where the interlining is dried. This type of interlining is very hard after fusing.
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