Heat capacity variables of thermoplastic polyurethane for high-quality 3D printing resolution and their characteristics

Heat capacity variables of thermoplastic polyurethane for high-quality 3D printing resolution and their characteristics

[Display omitted] •The 3D printing model with the combination of a TPU series and 3D Hot-Melt processing.•The 3D printing sculptures with a high-quality surface resolution.•The direct relationship of the 3D printing materials between the surface resolution and the heat capacitance. The preparation o...

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Bibliographic Details
Published in:Materials letters Vol. 257; p. 126698
Main Authors: Kang, Kyung Seok, Jee, Chanhyuk, Bae, Ji-Hong, Jung, Hyo Jin, Huh, PilHo
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 15-12-2019
Elsevier BV
Subjects:
3-D printers
3D printing materials
Ductility
Heat capacity
Laminates
Laminating
Materials science
Polyurethane resins
Specific heat
Surface resolution
Tensile strength
Thermoplastic polyurethane
Three dimensional printing
Urethane thermoplastic elastomers
Heat capacity
3D printing materials
Thermoplastic polyurethane
Surface resolution
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Description
Summary:[Display omitted] •The 3D printing model with the combination of a TPU series and 3D Hot-Melt processing.•The 3D printing sculptures with a high-quality surface resolution.•The direct relationship of the 3D printing materials between the surface resolution and the heat capacitance. The preparation of TPUs base balanced by an intelligent mix of ductility and hardness for the 3D printing systems is successfully synthesized. The larger heat capacity leads to an increase in interfacial adhesion or compatibility between the laminating layers, which could offer the good tensile strength and ductility for the 3D printing. The precisely formulated TPU has the sufficient increase in heat capacity. This work is to determine a suitable soft/hard ratio for optimizing the hot-melt 3D printing system. The precise design of TPU provide a novel perspective to produce higher resolution-quality in the 3D printing polymer field.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2019.126698