Optimizing LPBF-parameters by Box-Behnken design for printing crack-free and dense high-boron alloyed stainless steel parts

Brenda Juliet Martins Freitas; Guilherme Yuuki Koga; Siegfried Arneitz; Claudemiro Bolfarini; Sergio de Traglia Amancio-Filho

Additive Manufacturing Letters (Apr 2024)

Optimizing LPBF-parameters by Box-Behnken design for printing crack-free and dense high-boron alloyed stainless steel parts

Brenda Juliet Martins Freitas,
Guilherme Yuuki Koga,
Siegfried Arneitz,
Claudemiro Bolfarini,
Sergio de Traglia Amancio-Filho

Affiliations

Brenda Juliet Martins Freitas: Federal University of São Carlos, Graduate Program in Materials Science and Engineering, São Carlos 13.565-905, Brazil; Graz University of Technology, Institute of Materials Science, Joining and Forming, Graz 8010, Austria; Corresponding author.
Guilherme Yuuki Koga: Federal University of São Carlos, Department of Materials Engineering, São Carlos 13.565-905, Brazil; Federal University of São Carlos, Center for Characterization and Development of Materials (CCDM), Rod. Washington Luis, São Carlos, SP, CEP 13565-905, Brazil
Siegfried Arneitz: Graz University of Technology, Institute of Materials Science, Joining and Forming, Graz 8010, Austria
Claudemiro Bolfarini: Federal University of São Carlos, Department of Materials Engineering, São Carlos 13.565-905, Brazil
Sergio de Traglia Amancio-Filho: Graz University of Technology, Institute of Materials Science, Joining and Forming, Graz 8010, Austria; Corresponding author.

Journal volume & issue: Vol. 9
p. 100206

Abstract

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Boron has almost null solubility in iron, and its addition to stainless steels leads to the formation of hard borides, beneficial for increasing the wear resistance. However, these boron-containing steels have poor printability, with the occurrence of pronounced cracking, high porosity and risk of delamination. In this work, Box-Behnken design coupled with analysis of variance (ANOVA) was used to optimize the LPBF (Laser Powder Bed Fusion) processing parameters of a highly boron-alloyed stainless steel reinforced with a boride network. The proposed models demonstrated to be accurate in determine the porosity percentage for the studied alloys, in which the laser power and scanning speed play the main role in the alloys’ densification, and absence of extensive defects. These results indicate that the use of design of experiments tools is essential to produce defect-free boron-modified stainless steel specimens with a relatively low number of experiments, identifying a narrow optimized processing window to build bulk composite materials.

Published in Additive Manufacturing Letters

ISSN: 2772-3690 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering
Website: https://www.journals.elsevier.com/additive-manufacturing-letters/

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