Document detail
ID
oai:arXiv.org:2409.07021
Topic
Physics - Fluid Dynamics Electrical Engineering and Systems...Author
Wu, Yumeng Chiu, GeorgeCategory
Computer Science
Year
2024
listing date
9/18/2024
Keywords
volumeAbstract
This paper proposes an improved height profile model for drop-on-demand 3D printing with UV curable ink.
It is extended from a previously validated model and computes height profile indirectly from volume and area propagation to ensure volume conservation.
To accommodate 2D patterns using multiple passes, volume change and area change within region of interest are modeled as a piecewise function of height difference before drop deposition.
Model coefficients are experimentally obtained and validated with bootstrapping of experimental samples.
Six different drop patterns are experimentally validated.
The RMS height profile errors for 2D patterns from the proposed model are consistently smaller than existing models from literature and are on the same level as 1D patterns reported in our previous publication.
Wu, Yumeng,Chiu, George, 2024, An Improved Height Difference Based Model of Height Profile for Drop-on-Demand 3D Printing With UV Curable Ink
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