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ŠTAFFOVÁ, M. ONDREÁŠ, F. ŽÍDEK, J. JANČÁŘ, J. LEPCIO, P.
Originální název
Biaxial porosity gradient and cell size adjustment improve energy absorption in rigid and flexible 3D-printed reentrant honeycomb auxetic structures
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
This paper compares different uniaxial and biaxial graded designs of auxetic reentrant honeycomb structures to enhance their mechanical properties, especially the specific energy absorption under compressive load. The lattice structures were 3D printed using the vat photopolymerization masked-stereolithography technique from two different materials - tough (OR) and flexible (FR). The results were evaluated from a material and structural point of view, investigating the effect of porosity, cell number, size, graded design, and fracture mode. The universally best energy-absorbing performance was found in a biaxially graded structure with a center-wise location of the highest local porosity. Depending on the used resin, its energy absorption capacity was up to 2-3 times enhanced compared to a reference uniform-porosity auxetic design. The presented data constitutes a fundamental understanding of auxetic structures and identifies practical approaches for tuning the auxetic structures' performance regarding their mechanical response. Finally, this study demonstrates the potential of shape versatility offered by 3D printing and other additive manufacturing techniques.
Klíčová slova
Reentrant auxetic structure; Modelling; Mechanical testing; Simulation; Fracture
Autoři
ŠTAFFOVÁ, M.; ONDREÁŠ, F.; ŽÍDEK, J.; JANČÁŘ, J.; LEPCIO, P.
Vydáno
1. 6. 2024
Nakladatel
ELSEVIER
Místo
AMSTERDAM
ISSN
2590-1230
Periodikum
Results in Engineering
Ročník
22
Číslo
102249
Stát
Nizozemsko
Strany od
1
Strany do
13
Strany počet
URL
https://www.sciencedirect.com/science/article/pii/S2590123024005048?via%3Dihub
BibTex
@article{BUT189995, author="Martina {Štaffová} and František {Ondreáš} and Jan {Žídek} and Josef {Jančář} and Petr {Lepcio}", title="Biaxial porosity gradient and cell size adjustment improve energy absorption in rigid and flexible 3D-printed reentrant honeycomb auxetic structures", journal="Results in Engineering", year="2024", volume="22", number="102249", pages="13", doi="10.1016/j.rineng.2024.102249", issn="2590-1230", url="https://www.sciencedirect.com/science/article/pii/S2590123024005048?via%3Dihub" }