Individualized Inlay Design of Abnormal Amber Based on 3D Scanning Technique

Xing-Yao Li, Yan Li, Yamei Wang, Wei Xiong, Chenxing Xin
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引用次数: 1

Abstract

In view of the current design status of abnormal amber, this paper innovatively combines 3D digital technology with personalized inlay design of abnormal amber. This experiment selects three different abnormal amber samples by classifying shape and texture of common abnormal amber in the market. Based on the shape and defect position that displayed by the 3D scanning point cloud of the sample, the corresponding individualized inlay was designed. After creating the 3D digital model, the inlay was printed by selective laser melting (SLM) 3D printer. The 3D printed inlay position is more accurate and the design is no longer restricted by handicraft. The experiment results show that the combination of 3D scanning technology and inlay design not only reduces labor costs and saves raw materials, but also improves the firmness and aesthetics of the inlay. With the continuous exploration, the application of 3D digital technology will provide more convenience for jewelry production.
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基于三维扫描技术的异常琥珀个性化镶嵌设计
针对目前异形琥珀的设计现状,创新性地将三维数字技术与异形琥珀的个性化镶嵌设计相结合。本实验通过对市场上常见的异常琥珀的形状和纹理进行分类,选取了三种不同的异常琥珀样品。根据样品三维扫描点云显示的形状和缺陷位置,设计相应的个性化镶嵌。在建立三维数字模型后,使用选择性激光熔化(SLM) 3D打印机打印嵌体。3D打印镶嵌位置更加精准,设计不再受手工艺的限制。实验结果表明,将3D扫描技术与嵌体设计相结合,不仅降低了人工成本,节约了原材料,而且提高了嵌体的牢固度和美观性。随着探索的不断深入,3D数字技术的应用将为珠宝制作提供更多的便利。
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