Effect of the build orientation on the mechanical behaviour of polymers by stereolithography

Liu, Haorui; Yang, Nana; Sun, Yuqing; Yang, Laidong; Li, Ni

doi:10.1088/1757-899x/612/3/032166

IOP Conf. Ser.: Mater. Sci. Eng.

2019

DOI: 10.1088/1757-899x/612/3/032166

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Effect of the build orientation on the mechanical behaviour of polymers by stereolithography

Haorui Liu

Nana Yang

Yuqing Sun

et al.

Abstract: The use of Rapid Prototyping techniques for the production of end-use parts is increasing in rapid manufacturing. The mechanical properties of stereolithography parts become the most important factor restricting its wide application. The mechanical properties of stereolithography parts can be not only influenced by the material characteristics, but also by the parameters of manufacturing. The purpose of this study is to investigate the influences of the build orientation on mechanical properties of stereolitho… Show more

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Cited by 4 publications

References 11 publications

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Einfluss der Druckausrichtung auf die mechanischen Eigenschaften von 3-D-gedruckten kieferorthopädischen Alignern

Camenisch,

Polychronis,

Panayi

et al. 2024

J Orofac Orthop

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Purpose The purpose of this study was to assess differences in the fundamental mechanical properties of resin-made three-dimensional (3D) printed orthodontic aligners according to the printing orientation. Methods Twenty resin 3D-printed dumbbell-shaped specimens and 20 orthodontic aligners were fabricated and postcured in nitrogen. Half of the specimens and aligners were built in horizontal (H), the other half in vertical (V) directions. The dumbbell-shaped specimens were loaded in a tensile testing machine, while parts of the aligners were embedded in acrylic resin, ground, polished, and then underwent instrumented indentation testing (IIT). Mechanical properties that were assessed included the yield strength (YS), breaking strength (BS), plastic strain (ε), Martens hardness (HM), indentation modulus (EIT), elastic index (ηIT), and indentation relaxation (RIT). Data were analyzed statistically with independent t‑tests or Mann–Whitney tests at α = 5%. Results No significant differences were found between specimens or aligners printed either in a horizontal or a vertical direction (P > 0.05 in all instances). Overall, the 3D-printed aligners showed acceptable mechanical propertied in terms of YS (mean 19.2 MPa; standard deviation [SD] 1.7 MPa), BS (mean 19.6 MPa; SD 1.2 MPa), ε (mean 77%; SD 11%), HM (median 89.0 N/mm2; interquartile range [IQR] 84.5–90.0 NN/m2), EIT (median 2670.5 MPa; IQR 2645.0–2726.0 MPa), ηIT (median 27.5%; IQR 25.9–28.1%), and RIT (mean 65.1%; SD 3.5%). Conclusion Printing direction seemed to have no effect on the mechanical properties of 3D-printed resin aligners, which are promising for orthodontic use.

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Einfluss der Druckausrichtung auf die mechanischen Eigenschaften von 3-D-gedruckten kieferorthopädischen Alignern

Camenisch,

Polychronis,

Panayi

et al. 2024

J Orofac Orthop

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Recent advances in the development of stereolithography-based additive manufacturing processes: A review of applications and challenges

Afridi,

Al Rashid,

Koç

2024

Bioprinting

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Recent advances in development of additively manufactured thermosets and fiber reinforced thermosetting composites: Technologies, materials, and mechanical properties

Mahshid¹,

Isfahani²,

Heidari-Rarani³

et al. 2023

Composites Part A: Applied Science and Manufacturing

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Effect of the build orientation on the mechanical behaviour of polymers by stereolithography

Cited by 4 publications

References 11 publications

Einfluss der Druckausrichtung auf die mechanischen Eigenschaften von 3-D-gedruckten kieferorthopädischen Alignern

Einfluss der Druckausrichtung auf die mechanischen Eigenschaften von 3-D-gedruckten kieferorthopädischen Alignern

Recent advances in the development of stereolithography-based additive manufacturing processes: A review of applications and challenges

Recent advances in development of additively manufactured thermosets and fiber reinforced thermosetting composites: Technologies, materials, and mechanical properties

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