Lamination refers to the method of merging things to each other. Lamination is generally defined and can pertain to quite a few methods of attachment or connecting things together. Commonly it is used to describe the technique of closing a piece of paper in the middle of two pieces of plastic.
Dr. Morris Blum, a dentist from New York City in 1938 uncovered the procedure of lamination. He began by transferring the dental technique of merging clear gum to teeth for defending enamel evolving to lamination of pictures. In the early part of the century the work Dr. Blum began was magnified by Herbert Faber and Daniel O’Connor. These men were industrial engineers that used Dr. Blum’s idea for insulation of their electrical devices. Their lamination material named Formica was used for consumer products such as lithograph film, radios and wood. In the 1950’s the idea took off as an extremely admired method for defending and sealing tables, chairs, kitchen counters and floors in restrooms and kitchens.
The process of laminating produces laminate. There are numerous items in our daily life that are laminates such as credit cards, windshields on cars, and plywood. Paper used for photography is laminate on a single side. The side that has the picture to protect it from ruining is laminate. The laminate provides photos with their silky and polished finish.
There are several types of lamination substances separated into four classifications. The groupings are ordinary or standard thermal laminating film, low-temperature laminating film, liquid laminates and pressure-sensitive laminating film. Low temperature and ordinary or standard thermal film require heat needed glue to wrap exteriors that are glossy, painted and non-porous. Things such as posters or high grade prints of photos use standard or low temperature laminate. Pressure-sensitive film requires cold glue to adhere to surfaces when strength is utilized. Pressure-sensitive film is reflected in such items as satin or matte materials. Liquid laminates are a paste that dries quickly for banners and signs for defense against weather elements.
There are more advantages to lamination. Electro-engineering has really used lamination. The process has been applied to lower heat to prevent damage in transformers which rescues the remaining electrical circuit. Ferrite sheets with the conductor patterns etched into them are laminated onto the piece of equipment and when heat increases, it can be soaked up by the channels in the ferrite. The ferrite guides the warmth to electrodes that guide the warmth to the circuit or out of the circuit depending upon the use for the piece of equipment.