Open AccessBurnishing of AM materials to obtain high performance part surfaces
Author(s) -
Michela Sanguedolce,
Giovanna Rotella,
Maria Rosaria Saffioti,
Luigino Filice
Publication year - 2022
Publication title -
journal of industrial engineering and management
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.385
H-Index - 29
eISSN - 2013-8423
pISSN - 2013-0953
DOI - 10.3926/jiem.3608
Subject(s) - burnishing (metal) , manufacturing engineering , personalization , engineering , process (computing) , flexibility (engineering) , reliability engineering , reliability (semiconductor) , computer science , process management , mechanical engineering , power (physics) , statistics , physics , mathematics , quantum mechanics , world wide web , polishing , operating system
Purpose: This paper aims to provide a flexible solution to include additive manufacturing into a process chain complying with Industry 4.0 pillars, overcoming major drawbacks in terms of reliability and experimental effort.Design/methodology/approach: The study is based on the combination of real experimental activities and simulated ones.Findings: The main findings of this work consist of validation of the proposed process chain, which proves to be effective in terms of process flexibility (additive manufacturing, burnishing and process simulation acting synergistically), cost and time reduction and final output quality, encouraging customer involvement towards customization.Originality/value: This paper contributes to current research on the application of burnishing process, an easy way to implement and environmental friendly post-processing method to improve the performance of AM products, by providing a unique perspective integrating a reliable simulation model. Other researchers can use these outcomes towards manufacturing of the future.