5 research outputs found
Algorithm for Applying 3D Printing in Prototype Realization – Case: Enclosure for an Industrial Pressure Transmitter
Additive manufacturing technology helped many organizations to save
money in the product design process by reducing prototype costs, and also by providing a means for early evaluation and decision making. The idea of this paper is
to design an electronics enclosure for an intelligent industrial pressure transmitter,
using the additive technology. All enclosure elements are made on a 3D printer
WANHAO duplicator i3 plus, using PLA materials. The enclosure realization,
from CAD drawings to the finished model, enables a designer to correct existing errors, or make certain modifications as required by end-users. A process is
described that enables designers to review their decisions at any stage of product
realization, thus providing much more freedom in rapid prototyping. In this example, the advantages and disadvantages of additive manufacturing over conventional
manufacturing are outlined. Some deficiencies have also been observed, such as
mechanical damage to surfaces, burning of surfaces, tearing of prints, and surface
roughness. To mitigate such irregularities, both mechanical and chemical finishing
methods were used. The example confirmed that the finishing methods can affect
the final enclosure dimensions and shape. Further prototype development should
focus more on print quality, which depends on the shape of surfaces, the accuracy
of the geometry, the uniformity of structure and shape, material density, and the
resolution of details.Proceedings of the International Conference of Experimental and Numerical Investigations and New Technologies, CNNTech 2020, vol 153, June 29 – July 02, Zlatibor, Serbia