Abstract
Manufacturing of the embossing tools customary implies use of metals such as zinc, magnesium, copper, and brass. In the case of short run lengths, a conventional manufacturing process and the material itself represent a significant cost, not only in the terms of material costs and the need for using complex technological systems which are necessary for their production, but also in the terms of the production time. Alternatively, 3D printing can be used for manufacturing similar embossing tools with major savings in production time and costs. However, due to properties of materials used in the 3D printing technology, expected results of embossing by 3D printed tools cannot be identical to metal ones. This problem is emphasized in the case of long run lengths and high accuracy requirement for embossed elements. The objective of this paper is primarily focused on investigating the influence of the printing speed on reproduction quality of the embossing tools printed with FDM (Fused Deposition Modelling) technology. The obtained results confirmed that printing speed as a process parameter affects the reproduction quality of the embossing tools printed with FDM technology: in the case of deposition rate of 90 mm/s was noted the poorest dimensional accuracy in relation to the 3D model, which is more emphasised in case of circular and square elements. Elements printed with the highest printing speed have a greater dimensional accuracy, but with evident cracks on the surface.
Highlights
Embossing is a print finishing process which enables creating of raised or recessed images on substrate surface using pressure and temperature
It is suggested that 3D printing technology can be used for manufacturing similar embossing tools with major savings in production time and costs
The results indicate that layer thickness is the most influencing process parameter affecting surface roughness followed by road width and deposition speed
Summary
Embossing is a print finishing process which enables creating of raised or recessed images (e.g. logos or characters) on substrate surface using pressure and temperature. Embossing results in a raised or recessed surface, with the design higher or lower than the surrounding substrate area In this process, usually two metal dies are used: one with raised image and another, counterdie with matching reverse image (Kipphan, 2001). The current market demands for high reproduction quality, while maintaining environmental and more economical recycling objectives, with a faster product development and reduced time to market, should be fulfilled. Having this in mind, it is suggested that 3D printing technology can be used for manufacturing similar embossing tools with major savings in production time and costs. The 3D printed embossing tools were used mainly for art reproductions and stamps for personal use, but there are no standard recommendations for the printing parameters that
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