INVESTIGATION OF THE LOAD-BEARING CAPACITY OF Co-Cr LATTICE STRUCTURES FABRICATED BY SELECTIVE LASER MELTING-Reference-Cited by-同舟云学术

INVESTIGATION OF THE LOAD-BEARING CAPACITY OF Co-Cr LATTICE STRUCTURES FABRICATED BY SELECTIVE LASER MELTING

Published:2022-08-01 Issue: Volume: Page:
ISSN:2602-3350
Container-title:International Journal of 3D Printing Technologies and Digital Industry
language:tr
Short-container-title:IJ3DPTDI

Author:

BABACAN Nazım¹,ŞEREMET Hübannur²

Affiliation:

1. SİVAS BİLİM VE TEKNOLOJİ ÜNİVERSİTESİ, MÜHENDİSLİK VE DOĞA BİLİMLERİ FAKÜLTESİ

2. SİVAS BİLİM VE TEKNOLOJİ ÜNİVERSİTESİ, LİSANSÜSTÜ EĞİTİM ENSTİTÜSÜ

Abstract

Additively manufactured Co-Cr lattice structures are promising choices especially in medical applications. This study involves the designing and fabrication of a novel lattice structures with FCCZZ (face-centered cubic with exterior and interior vertical struts) unit cell topology. The manufacturability by selective laser melting (SLM) and the load-bearing capacity of this structure were examined by utilizing scanning electron microscope (SEM) observations and uniaxial compression tests. The samples with FCCZ (face-centered cubic with vertical struts) structures were also produced and analyzed for comparison. The designed lattice structures were successfully manufactured by SLM even though an approximately 1.5-2% increase in the theoretical relative density values was observed. The novel FCCZZ samples exhibited superior performance in terms of the load-bearing capacity compared to FCCZ samples by possessing 17% higher specific strength value.

Publisher

International Journal of 3D Printing Technologies and Digital Industry

Subject

Marketing,Economics and Econometrics,General Materials Science,General Chemical Engineering

Reference24 articles.

1. Jin, N., Wang, F., Wang, Y., Zhang, B., Cheng, H., & Zhang, H., “Effect of structural parameters on mechanical properties of Pyramidal Kagome lattice material under impact loading”, International Journal of Impact Engineering, Vol. 132, Issue 5, (2019).

2. Xiang, D. D., Wang, P., Tan, X. P., Chandra, S., Wang, C., Nai, M. L. S., Tor, S. B., Liu, W. Q., & Liu, E., “Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants.” Materials Science and Engineering A, Vol. 765, 2019.

3. Boniotti, L., Beretta, S., & Patriarca, L., “Strain concentrations in BCC micro lattices obtained by AM”, Procedia Structural Integrity, Vol. 7, Pages 166–173, 2017.

4. Vrána, R., Cervinek, O., Manas, P., Koutný, D., & Paloušek, D., “Dynamic loading of lattice structure made by selective laser melting-numerical model with substitution of geometrical imperfections” Materials, Vol. 11, Issue 11, 2018.

5. Okazaki, Y., Ishino, A., & Higuchi, S., “Chemical, physical, and mechanical properties and microstructures of laser-sintered Co-25Cr-5Mo-5W (SP2) and W-Free Co-28Cr-6Mo alloys for dental applications”, Materials, Vol. 12, Issue 24, 2019.

Cited by 5 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. 4D-printed NiTi auxetic metamaterial with enhanced functionality via deposition of nano-Ni layer;Additive Manufacturing;2024-07

2. Dynamic mechanical properties of selective laser-melted AlSi10Mg lattice structures: experimental and numerical analysis with emphasis on Johnson-Cook model parameters;The International Journal of Advanced Manufacturing Technology;2024-04-17

3. Compressive properties of AlSi10Mg lattice structures with novel BCCZZ and FCCZZ configurations fabricated by selective laser melting;Rapid Prototyping Journal;2024-03-29

4. High-performance Cu-Al shape memory alloy in ternary combination with graphene fabricated by powder bed fusion process;Journal of Alloys and Compounds;2023-10

5. Additive manufacturing design approach to strut-based functionally graded porous structures for personalized implants;Journal of Manufacturing Processes;2022-12