Production Methods
Prior to being coated, the primary substrate is unwound and processed through various pre-treatment stages, including cleaning and surface preparation to ensure proper adhesion of coatings or laminates. These treatments may involve corona treatment, flame treatment, or chemical priming to enhance surface energy and promote bonding of materials like polyethylene, polyester, and other polymer films.
Once pre-treated, the web enters the coating station, where a solution or hot meltcoating material is applied uniformly onto one or both sides of the substrate. The coatingmaterial may contain additives such as pigments, fillers, or functional chemicals to impart specific properties to the final product. Several application methods are availableat Pyradia, including gravure coating, Mayer rod coating, KOR coating, Reverse Roll coating, saturation or slot die coating, depending on the requirements of the application, such as coating type, thickness, uniformity, rheology, viscosity, etc.
Following coating, the web enters the drying and curing stages of production to evaporate solvents or water and solidify the coating material. Pyradia offers a full range of convection dryers, flotation dryers, infrared dryers, etc., depending on the nature of the coating and substrate. After drying and curing, the coated web may proceed to the laminator station where a laminate substrate is combined with the primary substrate, bonding two or more webs together to create a composite structure with enhanced properties such as strength, barrier performance, or appearance.
Finally, the laminated web undergoes post-processing steps such as slitting, trimming, and winding to achieve the desired roll dimensions and packaging requirements. Quality control measures, including thickness measurement, coating weight analysis, and visual inspection, are carried out throughout the process to ensure product consistency and adherence to specifications.
In conclusion, web coating and laminating are complex manufacturing processes that involve precise control of various parameters to produce high-quality materials with specific properties for a wide range of applications.