期刊名称:Journal of Engineering Management and Competitiveness
印刷版ISSN:2334-9638
电子版ISSN:2217-8147
出版年度:2020
卷号:10
期号:2
页码:141-150
DOI:10.5937/jemc2002141V
语种:English
出版社:University of Novi Sad, Technical faculty Mihajlo Pupin, Zrenjanin
摘要:This paper provides an algorithm for the application of additive manufacturing in the sustainable development of the enterprise. The manufacturing process includes the process of manufacturing preparation, the process of realization of manufacturing (or remanufacturing), the end of the manufacturing process with additional processing and recycling process. A 6R strategy in the realization of new or redesign of existing elements/parts has been implemented. Additive manufacturing or FDM printing technology enables frequent and simple modification of the model at a customer's request, and prior to the model enters the manufacturing itself. The starting material for making the model was polylactic acid (PLA). This paper aims to present the procedure of the realization of an electronics enclosure for a miniature pressure transmitter on a 3D printer. This gives the designer the opportunity to correct existing errors, modify the product according to the requirements of end-users, or to design a completely new product (prototype). In order for the algorithm to get the right confirmation, it is important to design a product that enables: accessibility, easy interchangeability, disassembly, the possibility of finishing and reuse.
其他摘要:U ovom radu dat je algoritam primene aditivne proizvodnje u održivom razvoju preduzeće koji obuhvata: proces pripreme proizvodnje, process realizacije proizvodnje (ili reproizvodnje), kraj procesa proizvodnje uz dodatnu obradu i postupak reciklaže optada. Implementirana je 6R strategija u realizaciji novih ili redizajnu postojećih elemenata/delova. Aditivna proizvodnja ili tehnologija FDM štampe omogućava ĉestu i jednostavnu modifikaciju modela na zahtev kupca, a pre ulaska modela u samu proizvodnju. Polazni materijal za izradu modela bio je polilaktiĉna kiselina (PLA). Cilj ovog rada bio je da se prikaže postupak realizacije kutije elektronike za malogabaritni transmiter pritiska na 3D štampaĉu. Time se projektantu daje mogućnost da ispravi postojeće greške, modifikuje proizvod prema zahtevima krajnjih korisnika ili da isprojektuje potpuno nov proizvod (prototip). Da bi algoritam dobio pravu potvrdu, važno je da se projektuje proizvod koji omogućava: pristupaĉnost, laku zamenljivost, rastavljivost, mogućnost dorade i ponovne upotrebe.
