Effect of changing the internal structure on the mechanical properties of three-dimensional-printed custom tray material: An in vitro study
The main challenges to the widespread clinical application of three-dimensional (3D)-printed customized trays include cost and time limitations. This study examined how changing the internal structure of 3D-printed materials used for customized trays affects flexural strength (FS), flexural modulus...
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| Veröffentlicht in: | European journal of oral sciences 2025-01, p.e13033 |
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| creator | Erdem, Cafer Anıl Çelik Öge, Selin Ekren, Orhun |
| description | The main challenges to the widespread clinical application of three-dimensional (3D)-printed customized trays include cost and time limitations. This study examined how changing the internal structure of 3D-printed materials used for customized trays affects flexural strength (FS), flexural modulus (FM), manufacturing time, and material weight. Specimens (64 × 10 × 3.3 mm) were printed using a light-sensitive liquid resin. The internal structures of control specimens were completely filled, whereas the internal structures of test groups comprised vertical bars spaced 1 mm (Test 1) or 2 mm (Test 2) apart. Specimens were weighed and then subjected to a three-point bending test to evaluate their FS and FM. Data were analyzed using one-way ANOVA and Tukey's test, with Weibull analysis applied to FS values. Control specimens had the highest FS (106 ± 4 MPa), while Test 2 specimens demonstrated the highest FM (6101 ± 1407 MPa). No significant differences were found between Test 1 and Test 2 specimens in FS or FM. Test 2 specimens had the lowest mean weight (1440 ± 42 mg). Manufacturing times were 80 min for control and Test 1 specimens and 60 min for Test 2 specimens. Including spaces in the internal structure of 3D-printed custom tray material saves material and manufacturing time while maintaining mechanical properties. |
| doi_str_mv | 10.1111/eos.13033 |
| format | Article |
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This study examined how changing the internal structure of 3D-printed materials used for customized trays affects flexural strength (FS), flexural modulus (FM), manufacturing time, and material weight. Specimens (64 × 10 × 3.3 mm) were printed using a light-sensitive liquid resin. The internal structures of control specimens were completely filled, whereas the internal structures of test groups comprised vertical bars spaced 1 mm (Test 1) or 2 mm (Test 2) apart. Specimens were weighed and then subjected to a three-point bending test to evaluate their FS and FM. Data were analyzed using one-way ANOVA and Tukey's test, with Weibull analysis applied to FS values. Control specimens had the highest FS (106 ± 4 MPa), while Test 2 specimens demonstrated the highest FM (6101 ± 1407 MPa). No significant differences were found between Test 1 and Test 2 specimens in FS or FM. Test 2 specimens had the lowest mean weight (1440 ± 42 mg). 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This study examined how changing the internal structure of 3D-printed materials used for customized trays affects flexural strength (FS), flexural modulus (FM), manufacturing time, and material weight. Specimens (64 × 10 × 3.3 mm) were printed using a light-sensitive liquid resin. The internal structures of control specimens were completely filled, whereas the internal structures of test groups comprised vertical bars spaced 1 mm (Test 1) or 2 mm (Test 2) apart. Specimens were weighed and then subjected to a three-point bending test to evaluate their FS and FM. Data were analyzed using one-way ANOVA and Tukey's test, with Weibull analysis applied to FS values. Control specimens had the highest FS (106 ± 4 MPa), while Test 2 specimens demonstrated the highest FM (6101 ± 1407 MPa). No significant differences were found between Test 1 and Test 2 specimens in FS or FM. Test 2 specimens had the lowest mean weight (1440 ± 42 mg). 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| title | Effect of changing the internal structure on the mechanical properties of three-dimensional-printed custom tray material: An in vitro study |
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