Analysis of the Application Potential and Challenges of Laser Engraving Technology in the Industrialized Production of Nixing Pottery_Vol. 3 No. 3 (JES 2025)_Journal of Engineering System (ISSN: 2959-0604)

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Analysis of the Application Potential and Challenges of Laser Engraving Technology in the Industrialized Production of Nixing Pottery

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DOI: https://doi.org/10.62517/jes.202502306

Author(s)

Jixuan Sun

Affiliation(s)

Beibu Gulf University, Qinzhou, Guangxi, China

Abstract

This paper explores the application prospects and practical challenges of laser engraving technology in the industrialized production of Nixing pottery. Through comparative process analysis, technical adaptability verification, and industrialization feasibility assessment, it focuses on the compensation effect of Z-coordinate correction surface tracking technology based on the KNN algorithm and Euclidean distance on body shrinkage deformation. Research indicates that this technology reduces single-piece processing time to 15 minutes, improves efficiency by 8 times, achieves a product qualification rate exceeding 85%, and enhances engraving depth consistency to 95%. However, high equipment investment costs (ranging from 300,000 to 1.5 million yuan per unit), the absence of industry standards, and a shortage of multidisciplinary Homo sapiens talents hinder its widespread adoption. By developing specialized equipment, establishing standard systems, and promoting industry-university-research collaboration, it is possible to overcome the production capacity bottleneck of Nixing pottery and provide a practical example for the digital transformation of traditional craftsmanship, which holds positive significance and is worthy of promotion.

Keywords

Nixing Pottery; Laser Engraving; Digital Manufacturing; Ceramic Processing; Surface Tracking Technology

References

[1] Xiumei Zhou, Sanping Zhou. Research on the Development of Characteristic Industries of Qinzhou Nixing Pottery. Guangxi Local Chronicles, 2023, (S1): 35-38. [2] Hui Huang. A Brief Discussion on the Carving Decoration Techniques and Innovative Approaches of Qinzhou Nixing Pottery. Ceramics, 2019(8):75-78. [3] Lili Wang. Diligently honing internal skills to empower and upgrade Qinzhou pottery with technology. Guangxi Mass Innovation Demonstration Base Entrepreneurial Story Collection, 2023-11-17(52). [4] Jianjun Yang. Inheritance and Innovation of Pottery-Making Techniques: A Case Study of Signature Products from the Four Famous Pottery Traditions. Ceramic Science & Art, 2020(5):44-47. [5] Sanping Zhou, Haixin Shi, Yan Chen, et al. Study on the Process Performance of Qinzhou Nixing Pottery Clay. Ceramics, 2018(11):13-17. [6] Chengshi Li, Chunwei Wang. Research on Digital Technology Empowering the Protection and Inheritance of Qinzhou Nixing Pottery. Tian Gong, 2024, (22):74-76. [7] Liyang Han, Tao Wang, Fuhui Ma, et al. Research on the Application of Laser Cutting in Non-Metallic Material Processing. Internal Combustion Engine & Parts, 2025, (09): 61-63. [8] Meiyun Zhao, Qian He, Bo Lei, et al. Preparation of Ceramic Superhydrophobic Surface Based on Laser Engraving Technology. Journal of China Three Gorges University (Natural Science Edition), 2021, 43(01): 107-112. [[9] China Laser Engraving Machine Industry Market Outlook and Investment Strategy Planning Analysis Report (2025-2030). Qianzhan Industry Research Institute, 2025. [10]Fuhong Zhong. Research on the Integrated Application of Ceramic Engraving and Digital Technology. Ceramic Science & Art, 2024, 58(07): 82-83. [11]Guozhang Yao, Zengyan Liu. Lessons from International Practices in Digital Preservation and Inheritance of Intangible Cultural Heritage. Southeast Culture, 2022(6): 179-185. [12]Jixuan Sun. Research on Automatic Detection Methods for Ceramic Mesh Defects in Laser Engraving. Laser Journal, 2020, 41(08): 196-200. [13]Xingyi Liu. Research on Digital Engraving Issues of Nixing Pottery Based on Surface Tracking Technology. Science & Technology Information, 2023, 21(4): 9-15. [14]Yun Zhang. Research on Laser Drilling Processing Technology. Tianjin Electronic Industry Association. Proceedings of the 2024 Annual Conference of Tianjin Electronic Industry Association. Dezhong (Tianjin) Technology Development Co., Ltd., 2024: 133-137. [15]Yanbing Liang, Shuqi Wei. Exploration of Digital Empowerment for the Transformation and Upgrading of Qinzhou Nixing Pottery Industry. Ceramic Studies, 2023, 38(03): 74-76. [16]Jiangning Liu, Jing Yang, Yangyang Liu, et al. Analysis of Laser Processing Training Reform Based on Discipline Characteristics. Laboratory Science, 2024, 27(2): 179-182. [17]Kan Yan. Theoretical Analysis and Application of Laser Cutting Processing. China Metal Bulletin, 2025, (06): 153-155. [18]Shengxue Gao, Xingping Ding, Xiaohai Li. Research Status and Prospects of Laser Cutting Technology in Various Domestic Fields. Mechanical Research & Application, 2024, 37(1):173-176.