Fatigue performance in additively manufactured metal alloys

Muhammad Muteeb Butt; Hossein Laieghi; Varma Kvvssn; Zia Uddin; Mussadiq Shah; Peyman Ansari; Metin U. Salamci; Albert E. Patterson; Hüseyin Kizil

doi:10.1007/s40964-024-00738-2

Fatigue performance in additively manufactured metal alloys

Muhammad Muteeb Butt, Hossein Laieghi, Varma Kvvssn, Zia Uddin, Mussadiq Shah, Peyman Ansari, Metin U. Salamci, Albert E. Patterson^*, Hüseyin Kizil

^*Corresponding author for this work

Department of Metallurgical and Materials Engineering

Research output: Contribution to journal › Review article › peer-review

2 Citations (Scopus)

Abstract

The paper provides a comprehensive review on the fatigue characteristics of additive manufactured metal alloys, exploring key factors that influence their durability and underlying failure mechanisms. In addition, the article examines various fatigue mechanisms that can occur in AM metals subjected to cyclic loading, including the initiation and propagation of cracks and fracture mechanics. The effects of the feedstock powder characteristics, print defects, microstructure, build orientation, surfaces finish, residual stresses, sample size and geometry, and the consequences of heat treatment and thermal post-processing are examined in detail. The main focus is on powder bed fusion processes, but relevant papers on wire arc additive manufacturing and other metal AM processes were also included in the review. This work provides readers with a comprehensive understanding of the underlying difficulties and potential benefits of fatigue analysis in AM-processed metal alloys. It will also help readers to systematically identify future research problems, gaps, challenges, and promising future directions in the fatigue performance of AM metal alloys.

Original language	English
Article number	100977
Pages (from-to)	1809-1841
Number of pages	33
Journal	Progress in Additive Manufacturing
Volume	10
Issue number	4
DOIs	https://doi.org/10.1007/s40964-024-00738-2
Publication status	Published - Apr 2025

Bibliographical note

Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature Switzerland AG 2024.

Keywords

Additive manufacturing
Cracks
Failure mechanisms
Fatigue
Fracture
Selective laser melting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s40964-024-00738-2

Cite this

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abstract = "The paper provides a comprehensive review on the fatigue characteristics of additive manufactured metal alloys, exploring key factors that influence their durability and underlying failure mechanisms. In addition, the article examines various fatigue mechanisms that can occur in AM metals subjected to cyclic loading, including the initiation and propagation of cracks and fracture mechanics. The effects of the feedstock powder characteristics, print defects, microstructure, build orientation, surfaces finish, residual stresses, sample size and geometry, and the consequences of heat treatment and thermal post-processing are examined in detail. The main focus is on powder bed fusion processes, but relevant papers on wire arc additive manufacturing and other metal AM processes were also included in the review. This work provides readers with a comprehensive understanding of the underlying difficulties and potential benefits of fatigue analysis in AM-processed metal alloys. It will also help readers to systematically identify future research problems, gaps, challenges, and promising future directions in the fatigue performance of AM metal alloys.",

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AU - Laieghi, Hossein

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AU - Uddin, Zia

AU - Shah, Mussadiq

AU - Ansari, Peyman

AU - Salamci, Metin U.

AU - Patterson, Albert E.

AU - Kizil, Hüseyin

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Nature Switzerland AG 2024.

PY - 2025/4

Y1 - 2025/4

N2 - The paper provides a comprehensive review on the fatigue characteristics of additive manufactured metal alloys, exploring key factors that influence their durability and underlying failure mechanisms. In addition, the article examines various fatigue mechanisms that can occur in AM metals subjected to cyclic loading, including the initiation and propagation of cracks and fracture mechanics. The effects of the feedstock powder characteristics, print defects, microstructure, build orientation, surfaces finish, residual stresses, sample size and geometry, and the consequences of heat treatment and thermal post-processing are examined in detail. The main focus is on powder bed fusion processes, but relevant papers on wire arc additive manufacturing and other metal AM processes were also included in the review. This work provides readers with a comprehensive understanding of the underlying difficulties and potential benefits of fatigue analysis in AM-processed metal alloys. It will also help readers to systematically identify future research problems, gaps, challenges, and promising future directions in the fatigue performance of AM metal alloys.

AB - The paper provides a comprehensive review on the fatigue characteristics of additive manufactured metal alloys, exploring key factors that influence their durability and underlying failure mechanisms. In addition, the article examines various fatigue mechanisms that can occur in AM metals subjected to cyclic loading, including the initiation and propagation of cracks and fracture mechanics. The effects of the feedstock powder characteristics, print defects, microstructure, build orientation, surfaces finish, residual stresses, sample size and geometry, and the consequences of heat treatment and thermal post-processing are examined in detail. The main focus is on powder bed fusion processes, but relevant papers on wire arc additive manufacturing and other metal AM processes were also included in the review. This work provides readers with a comprehensive understanding of the underlying difficulties and potential benefits of fatigue analysis in AM-processed metal alloys. It will also help readers to systematically identify future research problems, gaps, challenges, and promising future directions in the fatigue performance of AM metal alloys.

KW - Additive manufacturing

KW - Cracks

KW - Failure mechanisms

KW - Fatigue

KW - Fracture

KW - Selective laser melting

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Fatigue performance in additively manufactured metal alloys

Abstract

Bibliographical note

Keywords

UN SDGs

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