Metallurgy and solidification microstructure control of fusion-based additive manufacturing fabricated metallic alloys: A review

Authors

Qiang Li
Xing-Ran Li
Bai-Xin Dong
Xiao-Long Zhang
Shi-Li Shu
Feng Qiu
Lai-Chang Zhang, Edith Cowan UniversityFollow
Zhi-Hui Zhang

Document Type

Journal Article

Publication Title

Acta Metallurgica Sinica (English Letters)

Volume

37

First Page

29

Last Page

53

Publisher

Springer

School

School of Engineering

Funders

National Key Research and Development Program of China / National Natural Science Foundation of China

Comments

Li, Q., Li, X. R., Dong, B. X., Zhang, X. L., Shu, S. L., Qiu, F., . . . Zhang, Z. H. (2024). Metallurgy and solidification microstructure control of fusion-based additive manufacturing fabricated metallic alloys: A review. Acta Metallurgica Sinica (English Letters), 37, 29-53. https://doi.org/10.1007/s40195-023-01656-y

Abstract

The metal-based additive manufacturing (AM), also referred to as metal 3D printing, has drawn particular interest because it enables direct creation, aided by computationally-directed path design, of intricate components with site-specific compositions and geometrical requirements as well as low buy-to-fly ratios. During the last two decades, the objective of this revolutionary technology has been shifting from only “rapid prototyping” to advanced manufacturing of special high-end products or devices, which, in many aspects, outperform conventional manufacturing technologies. For fusion-based AM, significant progress has been achieved in understanding the processing window of macroscopic scales, non-equilibrium metallurgy of mesoscale scales, and grain evolution of microscopic scales. Although the versatile capacity of AM facilitates new avenues for discovering advanced materials and structures, their potential has still not been fully explored. Given the unique non-equilibrium solidification during the AM process, coarse columnar grains with strong textures are usually developed along the build direction, which downgrades the mechanical performance. To push the limits of this digital manufacturing, this review attempts to provide in-depth and comprehensive overviews of the recent progress in understanding the evolution and control of the as-built microstructure that has been made recently and the challenges encountered during the AM process.

DOI

10.1007/s40195-023-01656-y

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