The apparatus that is depicted here comes with a coil attachment that is bolted to hot melt adhesive film and can be purchased separately. Utilizing a hot knife for blue cutting allows for the necessary piece of blue to be cut to size so that hot melt adhesive film can be adhered to the plate that is currently undergoing lamination. The knife is installed in the hole on the conveyor, which serves as the location for this purpose. Simply inserting it into the twist lock socket is all that is required to open the control panel on that device. Even more impressive than the speed of the machine itself is the rate at which hot melt adhesive film begins to heat up. With the assistance of the coil system, the substrate can be coated with materials such as fabrics and paper. This process can be completed successfully. The coil rack is first bolted to the conveyor part, as shown in the figure, and then hot melt adhesive film is bolted to the discharge end of the laminator. This sequence is repeated until the coil rack is completely assembled. After that, the material is moved around the top chrome compression roller until hot melt adhesive film is able to move through the opening in the roller.

The process of bonding PI film can make use of adhesives that are less harmful to the environment, such as polyamide hot-melt film and PES hot-melt film, for instance. However, in order for them to be joined together, the adhesives first need to be melted down into a liquid state by being heated to a specific temperature. This is because they exist in the solid state at temperatures that are relatively close to those of a typical room's temperature. In addition, the operational process is simple, which leads to a quick processing speed as a result of its direct impact. This results in a significant increase in the productivity that can be achieved when bonding composite systems.

In addition to providing superior adhesion and reducing the costs associated with labor, our one-of-a-kind hot-melt adhesive film includes these three fundamental elements. This enables the use of solvents, toxins, and water to be eliminated as potential sources of contamination during the adhesion process.

The infrared heat reservoir, which is responsible for producing a heat output of more than 9000 watts, is what makes the hot-melt film work

1. The substrate that has the hot-melt film applied to it is moved so that it is in proximity to the drive system of the drive system

2. The drive system then pulls the substrate into the activation area

3. The laminated material is indexed once  reaches the position previously determined to be the stop position

4. Through the use of the activated hot melt film, Hot melt adhesive film makes contact with the moving substrate, and after that, both of these components are placed into the power press roll

5. At this point, the laminated material will be bonded to the moving substrate in order to complete the step

6. The finished panel can be produced almost instantly by either utilizing the discharge conveyor of the smaller panel or by utilizing the advantage lamination system

7. Both of these options allow for the panel to be manufactured

8. Once the hot-melt film has been cut to a size that is larger than the panel that will serve as the substrate, the jacket can be placed on the panel

9. This can be done after the panel has been cut to a size that is larger than the hot-melt film

After the component has been screwed into its proper position, the first step in assembling the panel is to insert the laminate into the side guide slot.

After the sample has cooled, the sample ring should have a slight surplus of the molten material; as a result, you should fill it up to the level at which there is a surplus. After allowing the sample to cool for half an hour in the air, remove any excess sample that was left behind using a knife that has been heated to a low temperature.

The level of viscosity that is present in PI film is also present in the copolyester that constitutes the vast majority of polyester hot-melt adhesive film. This substance has a viscosity that is comparable to that of PI film, which illustrates the similarity between the two. The adhesion performance of polyamide hot-melt adhesive film is marginally superior to that of polyester hot-melt adhesive film. On the other hand, the adhesion performance of polyester hot-melt adhesive film is marginally inferior to that of polyamide hot-melt adhesive film. The fact that polyester hot-melt adhesive film is exceptionally resistant to washing and can maintain a good adhesion even when there is water present is the attribute that stands out the most about this type of adhesive. This is the quality that is most notable about this type of adhesive. This quality is what gives the type of adhesive that we're discussing its name. In addition to this, the price of polyester hot-melt adhesive film is not an amount of money that can be considered unreasonable.