TY - JOUR
T1 - Applying Digital Twin Methods for Process-Structure-Property Correlation Assessment in Metal Additive Manufacturing with Limited Experimental Data
AU - Marks, Malik
AU - Aswani, Karnik
AU - Weaver, Gregory
AU - Dababneh, Fadwa
AU - Taheri, Hossein
N1 - Publisher Copyright:
© 2024 American Society for Nondestructive Testing.
PY - 2024
Y1 - 2024
N2 - Additive manufacturing (AM) is expanding for fabricating complex, high-value, and large-size and low-volume parts. While AM holds significant potential for producing a variety of components, it is essential to conduct quality assessment of AM components to ensure their safe and reliable operation. Low-volume fabrication of parts imposes limitations on the number of inspection samples for quality verification. Limited availability of inspection samples can be addressed by nondestructive testing (NDT) of fabricated samples, and the development of digital twin models. In this study, the Process-Structure-Property (P-S-P) of stainless-steel AM parts fabricated via laser powder bed fusion technique are evaluated using a limited number of inspection samples by various material characterization and NDT. The correlation between process parameters and part properties has been assessed. Results indicate the P-S-P relationship where apart from the ultimate strength values, all experimental results display bimodal distributions, featuring two distinct modes. The correlation analysis reveals that higher laser power is associated with increased RF Z-score and Modulus. Utilizing the experimental findings, a FEM serving as a digital twin of the parts is constructed. This model enables the extension of quality assessment for the parts across a broader spectrum and facilitates the examination of P-S-P relations.
AB - Additive manufacturing (AM) is expanding for fabricating complex, high-value, and large-size and low-volume parts. While AM holds significant potential for producing a variety of components, it is essential to conduct quality assessment of AM components to ensure their safe and reliable operation. Low-volume fabrication of parts imposes limitations on the number of inspection samples for quality verification. Limited availability of inspection samples can be addressed by nondestructive testing (NDT) of fabricated samples, and the development of digital twin models. In this study, the Process-Structure-Property (P-S-P) of stainless-steel AM parts fabricated via laser powder bed fusion technique are evaluated using a limited number of inspection samples by various material characterization and NDT. The correlation between process parameters and part properties has been assessed. Results indicate the P-S-P relationship where apart from the ultimate strength values, all experimental results display bimodal distributions, featuring two distinct modes. The correlation analysis reveals that higher laser power is associated with increased RF Z-score and Modulus. Utilizing the experimental findings, a FEM serving as a digital twin of the parts is constructed. This model enables the extension of quality assessment for the parts across a broader spectrum and facilitates the examination of P-S-P relations.
KW - Additive manufacturing (AM)
KW - digital twin (DT)
KW - Finite Element Modeling (FEM)
KW - nondestructive testing (NDT)
KW - Process-Structure-Property (P-S-P)
UR - http://www.scopus.com/inward/record.url?scp=85213565349&partnerID=8YFLogxK
U2 - 10.1080/09349847.2024.2440353
DO - 10.1080/09349847.2024.2440353
M3 - Article
AN - SCOPUS:85213565349
SN - 0934-9847
JO - Research in Nondestructive Evaluation
JF - Research in Nondestructive Evaluation
ER -