The Effects of Processing Parameters during the Wire Arc Additive Manufacturing of 308L Stainless Steel on the Formation of a Thin-Walled Structure

Authors

Bang Liu, Tianjin University of Technology
Jun Lan, Tianjin University of Technology
Hongqiang Liu, HBIS Group Co., Ltd
Xinya Chen, Tianjin University of Technology
Xin Zhang, Changshu Institute of Technology
Zhengyi Jiang, University of Wollongong
Jian Han, Tianjin University of Technology

Publication Name

Materials

Abstract

Wire arc additive manufacturing (WAAM) excels in producing medium to large components with a high deposition rate. Process optimization is crucial for uniform, defect-free components. This research employs orthogonal experimental design and response surface methodology (RSM) to control TIG WAAM-ed 308L stainless steel components. Varied parameters, including tungsten electrode angle, welding current, and speed, target weld bead attributes. Analysis of variance (ANOVA) evaluates multi-processing parameter influence on weld bead formation. Comparison with experimental results confirms accurate modeling of the relationship between parameters and bead attributes. The study optimizes process parameters and swing to enhance dimensional accuracy in single-layer and multi-layer components, improving precision, quality, and accuracy in thin-walled structures.

Open Access Status

This publication may be available as open access

Volume

17

Issue

6

Article Number

1337