کنترل ریزساختار و ترک های انجمادی در فرایند ساخت افزایشی ذوب لیزری بستر پودر آلیاژهای آلومینیوم استحکام بالا

آریا گندم دوست; محمود سرکاری خرمی; سید فرشید کاشانی بزرگ; حسن قربانی

کنترل ریزساختار و ترک های انجمادی در فرایند ساخت افزایشی ذوب لیزری بستر پودر آلیاژهای آلومینیوم استحکام بالا

محل انتشار: دوفصلنامه علوم و فناوری جوشکاری ایران، دوره: 9، شماره: 1

سال انتشار: 1402

نوع سند: مقاله ژورنالی

زبان: فارسی

مشاهده: 295

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https://civilica.com/doc/1709338

شناسه ملی سند علمی:

JR_JWSTI-9-1_004

تاریخ نمایه سازی: 10 مرداد 1402

چکیده مقاله:

As one of the important pillars of the fourth industrial revolution, metal additive manufacturing (AM) technologies provide a disruptive approach to digital manufacturing. Laser powder bed fusion (LPBF), as one of these technologies, has great potential in producing geometrically complex and high-performance parts. In recent years, the manufacturing of aluminum alloy parts using this technology has attracted much attention. However, their manufacturing still faces some challenging issues. One of the most serious issues encountered in the manufacturing of aluminum alloys, especially high-strength grades, is solidification cracking. In the present investigation, the formation mechanisms of solidification cracking, and the associated effective factors were reviewed. Controlling the solidification microstructure and grain refinement, using the addition of small quantities (<۱ wt.%) of micro- or nano-sized particles to the initial alloying powder, was suggested as the most effective method for reducing solidification cracking. These particles act as nucleation sites, prevent grain growth, pin grain boundaries, and with the help of factors that provide constitutional supercooling can effectively minimize solidification cracking. Eventually, effects of various additives in grain refinement and their associated mechanism in reduction of solidification cracks of high-strength aluminum alloys by LPBF is presented.

کلیدواژه ها:

Additive Manufacturing ، Laser Powder Bed Fusion ، Aluminum ، Solidification Cracks ، Grain Refinement. ، ساخت افزایشی ، ذوب لیزری بستر پودر ، آلومینیوم ، ترک انجمادی ، ریزدانه سازی.

نویسندگان

آریا گندم دوست

دانشکده مهندسی متالورژی و مواد، دانشکده فنی، دانشگاه تهران، تهران، ایران.

محمود سرکاری خرمی

Department of Metallurgy and Materials Engineering, College of Engineering, University of Tehran, Tehran, Iran.

سید فرشید کاشانی بزرگ

Department of Metallurgy and Materials Engineering, College of Engineering, University of Tehran, Tehran, Iran.

حسن قربانی

Department of Metallurgy and Materials Engineering, College of Engineering, University of Tehran, Tehran, Iran.

مراجع و منابع این مقاله:

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“Material Design and Considerations for Metal Additive Manufacturing,” in Metal ...
T. B. Sercombe and X. Li, “Selective laser melting of ...
J. L. Leirmo and I. Baturynska, “Challenges and proposed solutions ...
X. Zhang, H. Zheng, and W. Yu, “A review on ...
N. T. Aboulkhair, M. Simonelli, L. Parry, I. Ashcroft, C. ...
Q. Tan et al., “Inoculation treatment of an additively manufactured ...
A. Sonawane, G. Roux, J. J. Blandin, A. Despres, and ...
J. Elambasseril et al., “Effect of process parameters and grain ...
M. A. Pekok, R. Setchi, M. Ryan, Q. Han, and ...
Q. Tan, Y. Liu, Z. Fan, J. Zhang, Y. Yin, ...
L. Tonelli, E. Liverani, G. Valli, A. Fortunato, and L. ...
K. Riener, T. Pfalz, F. Funcke, and G. Leichtfried, “Processability ...
G. Del Guercio et al., “Cracking behaviour of high-strength AA۲۰۲۴ ...
W. Stopyra, K. Gruber, I. Smolina, T. Kurzynowski, and B. ...
W. Stopyra, K. Gruber, I. Smolina, T. Kurzynowski, and B. ...
A. Sonawane, G. Roux, J. J. Blandin, A. Despres, and ...
M. L. Montero Sistiaga et al., “Changing the alloy composition ...
T. DebRoy et al., “Additive manufacturing of metallic components – ...
J. H. Martin, B. D. Yahata, J. M. Hundley, J. ...
S. Kou, Welding metallurgy third edition, ۳rd ed. Hoboken, NJ: ...
W. Kurz and D. J. Fisher, Fundamentals of Solidification, vol. ...
D. M. Stefanescu and R. Ruxanda, “Fundamentals of Solidification,” Metallography ...
I. Gibson, D. Rosen, B. Stucker, and M. Khorasani, “Powder ...
L. Ladani and M. Sadeghilaridjani, “Review of Powder Bed Fusion ...
G. M. Volpato, U. Tetzlaff, and M. C. Fredel, “A ...
B. S. Rao and T. B. Rao, “Effect of Process ...
S. R. Narasimharaju et al., “A comprehensive review on laser ...
R. Bidulsky, F. S. Gobber, J. Bidulska, M. Ceroni, T. ...
S. Thapliyal et al., “Design of heterogeneous structured Al alloys ...
Q. Li et al., “Development of a high strength Zr/Sc/Hf-modified ...
N. Qbau, N. D. Nam, N. T. Hien, and N. ...
R. Li, M. Wang, Z. Li, P. Cao, T. Yuan, ...
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M. Buttard et al., “Multi-scale microstuctural investigation of a new ...
A. Aversa et al., “New Aluminum Alloys Specifically Designed for ...
X. Zhang, L. Li, Z. Wang, H. Peng, J. Gao, ...
P. Mair, I. Letofsky-Papst, and G. Leichtfried, “Microstructural features and ...
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A. Mehta et al., “Additive manufacturing and mechanical properties of ...
Y. Guo et al., “Effect of Er and Zr additions ...
H. Hyer et al., “Elimination of extraordinarily high cracking susceptibility ...
X. Li, Y. Liu, and Z. Zhou, “Grain refinement and ...
A. Martin et al., “Influence of the Zr content on ...
Y. Wang et al., “Laser powder bed fusion of Zr-modified ...
J. Bi et al., “Microstructure and mechanical properties of a ...
Y. Guo et al., “Microstructure and mechanical properties of Al-Mg-Mn-Er-Zr ...
L. Zhou et al., “Microstructure and mechanical properties of Zr-modified ...
M. Schuster, A. De Luca, R. Widmer, X. Maeder, and ...
M. Opprecht, J. P. Garandet, G. Roux, C. Flament, and ...
H. Zhang, H. Zhu, X. Nie, J. Yin, Z. Hu, ...
H. Zhang, H. Zhu, X. Nie, J. Yin, Z. Hu, ...
J. Lu et al., “On the Sc induced solidification-heterogeneous microstructure ...
X. Zhang et al., “Influence of erbium addition on the ...
M. Li et al., “Role of Er on the densification, ...
Y. Otani and S. Sasaki, “Effects of the addition of ...
G. Li, Y. Huang, X. Li, C. Guo, Q. Zhu, ...
Z. Fan, C. Li, H. Yang, and Z. Liu, “Effects ...
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