Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing

Three-dimensional (3D) printing technology has developed rapidly in the past few years. This technology is widely used in houses, workpieces, artworks, organs, and even the food industry. Among the multiple 3D printing methods, the stereolithography appearance (SLA) technique is well known for its h...
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Autor*in:	Yu-Shan Zeng [verfasserIn] Ming-Hsien Hsueh [verfasserIn] Te-Ching Hsiao [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2023

Schlagwörter:	3D printing stereolithography photosensitive resin UV curing mechanical properties

Übergeordnetes Werk:	In: Materials Research Express - IOP Publishing, 2020, 10(2023), 2, p 025303
Übergeordnetes Werk:	volume:10 ; year:2023 ; number:2, p 025303

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.1088/2053-1591/acb751

Katalog-ID:	DOAJ089149165

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language	English
source	In Materials Research Express 10(2023), 2, p 025303 volume:10 year:2023 number:2, p 025303
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authorswithroles_txt_mv	Yu-Shan Zeng @@aut@@ Ming-Hsien Hsueh @@aut@@ Te-Ching Hsiao @@aut@@
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callnumber-first	T - Technology
author	Yu-Shan Zeng
spellingShingle	Yu-Shan Zeng misc TA401-492 misc TP1-1185 misc 3D printing misc stereolithography misc photosensitive resin misc UV curing misc mechanical properties misc Materials of engineering and construction. Mechanics of materials misc Chemical technology Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing
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topic_title	TA401-492 TP1-1185 Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing 3D printing stereolithography photosensitive resin UV curing mechanical properties
topic	misc TA401-492 misc TP1-1185 misc 3D printing misc stereolithography misc photosensitive resin misc UV curing misc mechanical properties misc Materials of engineering and construction. Mechanics of materials misc Chemical technology
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title	Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing
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title_full	Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing
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title_sort	effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3d printing
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title_auth	Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing
abstract	Three-dimensional (3D) printing technology has developed rapidly in the past few years. This technology is widely used in houses, workpieces, artworks, organs, and even the food industry. Among the multiple 3D printing methods, the stereolithography appearance (SLA) technique is well known for its high printing speed and considerable accuracy. In this research, the optimization parameters of the laser curing technology were applied by changing laser power and molding thickness. The mechanical properties were tested using a tensile test and a compression test of photosensitive resin materials after ultraviolet (UV) curing. The experimental results revealed that increasing the laser power or reducing the molding thickness increased the ultimate tensile strength, tensile Young’s modulus, and compressive strength of the material. However, when the stretch was decreased after UV curing, the strength of the material effectively improved, but the toughness of the material decreased. The abovementioned experimental results will be helpful to researchers for further studies on SLA.
abstractGer	Three-dimensional (3D) printing technology has developed rapidly in the past few years. This technology is widely used in houses, workpieces, artworks, organs, and even the food industry. Among the multiple 3D printing methods, the stereolithography appearance (SLA) technique is well known for its high printing speed and considerable accuracy. In this research, the optimization parameters of the laser curing technology were applied by changing laser power and molding thickness. The mechanical properties were tested using a tensile test and a compression test of photosensitive resin materials after ultraviolet (UV) curing. The experimental results revealed that increasing the laser power or reducing the molding thickness increased the ultimate tensile strength, tensile Young’s modulus, and compressive strength of the material. However, when the stretch was decreased after UV curing, the strength of the material effectively improved, but the toughness of the material decreased. The abovementioned experimental results will be helpful to researchers for further studies on SLA.
abstract_unstemmed	Three-dimensional (3D) printing technology has developed rapidly in the past few years. This technology is widely used in houses, workpieces, artworks, organs, and even the food industry. Among the multiple 3D printing methods, the stereolithography appearance (SLA) technique is well known for its high printing speed and considerable accuracy. In this research, the optimization parameters of the laser curing technology were applied by changing laser power and molding thickness. The mechanical properties were tested using a tensile test and a compression test of photosensitive resin materials after ultraviolet (UV) curing. The experimental results revealed that increasing the laser power or reducing the molding thickness increased the ultimate tensile strength, tensile Young’s modulus, and compressive strength of the material. However, when the stretch was decreased after UV curing, the strength of the material effectively improved, but the toughness of the material decreased. The abovementioned experimental results will be helpful to researchers for further studies on SLA.
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title_short	Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing
url	https://doi.org/10.1088/2053-1591/acb751 https://doaj.org/article/24d65d51190746c69f776bba4029eca8 https://doaj.org/toc/2053-1591
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Effect of ultraviolet post-curing, laser power, and layer thickness on the mechanical properties of acrylate used in stereolithography 3D printing

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