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International Journal of Academic Research in Business and Social Sciences

Open Access Journal

ISSN: 2222-6990

Research on the Application of 3D Printing Technology in Enamel Jewelry Design

Chen Qingliu, Sharul Azim Sharudin

http://dx.doi.org/10.6007/IJARBSS/v14-i7/21878

Open access

With the advancement of globalization, the design style and production skills of enamel jewelry continue to exchange and integrate. Modern enamel jewelry not only retains the essence of traditional craftsmanship, but also integrates modern aesthetic and fashion elements. In addition, the progress of science and technology has also provided new opportunities for the development of enamel jewelry, such as 3D printing, CNC engraving and other modern technologies in the application of enamel jewelry production. Enamel jewelry has always been loved by consumers for its unique texture and color. However, the traditional manufacturing method of enamel jewelry has some limitations, such as long manufacturing cycle, high cost and limited design. The emergence of 3D printing technology has brought new possibilities for enamel jewelry design, making the manufacturing of enamel jewelry more efficient, precise and personalized. With the continuous development of 3D printing technology, its application in the field of jewelry design is increasingly widespread. It is important and necessary to explore the application of 3D printing technology in the jewelry industry. First of all, 3D printing technology can improve the efficiency of design and manufacturing, break through the production restrictions, and promote the popularity of personalized customized services, so that small batch diversified design and production become economical. Secondly, the introduction of 3D printing technology in the jewelry industry can promote multidisciplinary cross-border cooperation and the formation of diversified styles, which is the perfect combination of science and technology and art. Finally, 3D printing technology can speed up prototyping and iteration, effectively improve the success rate of design and production, reduce production costs and error risks, and enhance the comprehensive competitiveness of the market. This paper aims to discuss the application and advantages of 3D printing technology in enamel jewelry design, analyze and compare the production process of 3D printing technology and traditional enamel jewelry, and analyze the limitations of 3D printing technology and the development trend in the future.

Yaqiong, Z., & Xiaoqing, Z. (2021). 3D printing metal jewelry and enamel process fusion design. Chizhou college journal (6), 97-100. The doi: 10.13420 / j.carol carroll nki jczu. 2021.06.027.
Qiong, L. (2020). Comparative study of 3D printing process and traditional jewelry making process. Gems and gemological magazine (English and Chinese) (01), 61-68. The doi: 10.15964 / j.carol carroll nki. 027 JGG. 2020.01.008.
Jia Junwen & Zhongming, S. (2023). Research on design and application of mortise and tenon structure in 3D printing jewelry. Gems and gemological magazine (English and Chinese) (3), 98-105. The doi: 10.15964 / j.carol carroll nki. 027 JGG. 2023.03.012.
Ping, G. (2021). Based on material gain material manufacturing technology of preparation and application research on dressing bionic design (Ph.D. Dissertation, China university of geosciences). https://kns.cnki.net/KCMS/detail/detail.aspx?dbna
me=CDFDLAST2022&f ilename=1022469969.nh
Qinqin, Y. (2019). Application of 3D printing technology in modern jewelry design. Art Science and Technology (02),99. doi:CNKI:SUN:YSKK.0.2019-02-069.
Xu Yu. (2019). Casting process design of wax based jewelry model based on 3D printing. Casting equipment and technology (02), 22-25. Doi: 10.16666 / j.carol carroll nki issn1004-6178.2019.02.007..
Xianfu, Z. (2018). Research on 3D printing's reshaping of jewelry personalized customization process. Packaging Engineering (12),180-185. doi:10.195
54/j.cnki. 1001-3563.2018.12.034.
Xiaomei, W. (2019). Jewelry production status and prospect analysis under 3D printing technology. Modern Commerce and Industry (31),197-198. doi:10.19311
/j.cnki.1672-3198.2019.31.098.
Gu Dingzhi. (2023). Application research of enamel craft visual lightweight design concept -- A case study of daily wear enamel jewelry. Textile Report (07),46-48. doi:CNKI:SUN:JSFA.0.2023-07-015.
XiaoJie. (2023). For the application of natural element in enamel jewelry (a master's degree thesis, lu xun academy of fine arts). https://kns.cnki.net/KCMS/de
tail/detail.aspx?dbname=CMFDTEMP&filename=102391 1337.nh
Meng, Y., & Hu Jun. (2022). Study on detachable structure of modern enamel jewelry. Art and design (theory) (9), 106-108. The doi: 10.16824 / j.carol carroll nki issn10082832.2022.09.011.
Yuxin, C. (2022). The enamel surface effect in the application of contemporary jewellery and research (a master's degree thesis, lu xun academy of fine arts). https://kns.cnki.net/KCMS/detail/detail.aspx?dbname=CM FD202301&file
name= 1022579920.nh
Elisabetta, M., & Sonia, M. (2024). Modelling of damage and plasticity phenomena in 3D printed materials via a multiscale approach. European Journal of Mechanics / A Solids. doi:10.1016/J.EUROMECHSOL.2023.105140.
Yaxin, X. (2022). The glass glaze with enamel glaze in jewelry design, the application of (a master's degree thesis, lu xun academy of fine arts). https://kns.cnki
.net/KCMS/detail/detail.aspx?dbname=CMFD202301&filename= 1022579884.nh
Li Yifei. (2021). The artistic features of the jewelry wire inlay enamel craft research (a master's degree thesis, lu xun academy of fine arts). https://kns.cnki.net/
KCMS/detail/detail.aspx?dbname=CMFD202102&filename=102 1624282.nh
Fengyu, Z. (2021). The enamel skill inheritance and application in jewelry (a master's degree thesis, China university of geosciences (Beijing)). https://kns.cnki.net
/KCMS/detail/detail.aspx?dbname=CMFD202201&filename= 1021173642.nh

(Qingliu & Sharudin, 2024)
Qingliu, C., & Sharudin, S. A. (2024). Research on the Application of 3D Printing Technology in Enamel Jewelry Design. International Journal of Academic Research in Business and Social Sciences, 14(7), 1299–1309.