Research of protective coatings application on polymer formulations made by additive technology (CROSBI ID 297222)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Groš, Josip ; Raos, Pero ; Leskovac, Mirela
engleski
Research of protective coatings application on polymer formulations made by additive technology
Injection molding of polymer moldings has proven to be a fast way of making products for medium and high series production for many years. In order to produce a quality product, all stages of the process must be under control (tools, materials, injection molding machine, etc.). In the last two decades, additive technology for the production of prototypes and, more recently, finished products has been developing intensively. The biggest disadvantage of additive technology is the limited choice of polymer materials and different mechanical properties of products compared to products produced by injection molding technology. Making a mold for the injection molding process is time consuming and expensive, and for smaller batches, an unprofitable process. By making molds for injection molding with additive technology, we accelerate the process of production of finished products. One of the disadvantages of making molds in this way is their durability. In order to increase the durability of the mold, the area of coating application will be investigated. The research was conducted as part of the application for a doctoral thesis. The paper will be divided into three key sections. The first part of the paper will explain the research conducted so far. In the second part, the examination of the surface parameters that are necessary for us to obtain the connection between the additive material and the coating will be presented. Taking into consideration the first two units, the third unit will explain: the selection of the experiment plan, input factors, output factors as well as the method of conducting the experiment.
additive technology ; application of protective coatings ; differential scanning calorimetry analysis ; free surface energy and surface...
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Podaci o izdanju
28 (4)
2021.
1415-1424
objavljeno
1330-3651
1848-6339
10.17559/TV-20210524213954
Povezanost rada
Interdisciplinarne tehničke znanosti, Kemijsko inženjerstvo, Strojarstvo