Analysis of 3D printing Technology and ceramic sculpture art in urban landscape design
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Abstract
In tackling the artistic challenges inherent in ceramic sculpture design, we introduce a novel approach harnessing 3D printing technology. Our methodology involves several key steps. Firstly, utilizing ANSYS ICEMCFD simulation software, we rigorously validate the efficacy of our ceramic sculpture design process reliant on 3D printing. This methodological framework is denoted as experimental group A, while two traditional design approaches are classified as experimental groups B and C, respectively. Subsequently, we undertake a comprehensive comparative analysis, evaluating the outcomes, dimensional accuracy, and precision errors across the three design methodologies. Through this scrutiny, we ascertain that our proposed technique yields ceramic sculptures characterized by high pattern definition and minimal surface precision discrepancies. Notably, the relative size errors along the x-axis, y-axis, and z-axis remain negligible, consistently below 1.0, ensuring uniformity in the final product's visual impact. Moreover, the resultant ceramic sculptures exhibit low surface roughness, preserving their dimensional integrity without compromise.
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