Fabrication and optimization of the stereolithographic 3D printing of particle composites using titanium fillers & photocurable resins
Stereolithography (SLA) is a form of 3D printing technology that prints models in a layer-by-layer fashion, using photochemical processes where ultraviolet light causes the crosslinking of the molecules in the photocurable liquid resin. Recently, much interest has been shown in the field of SLA 3...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2021
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| Online Access: | https://hdl.handle.net/10356/148618 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Stereolithography (SLA) is a form of 3D printing technology that prints models in a
layer-by-layer fashion, using photochemical processes where ultraviolet light causes
the crosslinking of the molecules in the photocurable liquid resin. Recently, much
interest has been shown in the field of SLA 3D printing of composite materials, due to
the possibility of improved mechanical properties compared to its pure polymeric
counterparts, as well as acting as a potential low-cost method to print metallic
structures. This study investigates the effects of ultraviolet (UV)/thermal curing as well
as adding titanium fillers on the mechanical properties and print success rates of 3D
printed resin samples. The optimal curing conditions for the pure resins used in this
study were determined, and it was discovered that the addition of metal fillers do not
necessarily enhance the mechanical properties of the resin samples. Finally, this study
investigates reasons behind the issues as to why composite materials of sufficiently
high metal concentrations are unable to be printed yet, and explores various solutions
to overcome these problems, some of which ultimately achieve a degree of success. |
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