Development of the ceramic jewelry industry for necklace with Indonesian batik motifs C.D. Mahendri1- P.W. Anggoro1*- P.K. Fergiawan2- T. Yuniarto1- A.P. Bayuseno2- Jamari2
1Department of Industrial Engineering, Faculty of Industrial Technology, University of Atma Jaya Yogyakarta, Jl. Babarsari 44, Yogyakarta 55281, Indonesia
2Department of Mechanical Engineering, University of Diponegoro, Jl. Prof. Soedarto, SH., Tembalang, Semarang 50275, Indonesia.
Abstract
1. Introduction : Currently, the national ceramic industry has developed products based on culture and creative economy. This product is increasingly sought after by local and foreign consumers. Design development is carried out to face competition in the Asean Economic Community (AEC) in order to avoid decreasing the quality and quantity of Indonesian ceramic export products. The effort that every ceramic industry player must always make is to innovate products by making new breakthroughs. Breakthroughs are no longer carried out conventionally but use advances in computer aided design (CAD) based design technology, and reverse engineering (RE) which is often called the Computer Aided Reverse Engineering System (CARESystem).
2. Purpose : This paper demonstrates the Development of Ceramic industry to make Jewellry ceramic for Necklace With Indonesian Batik motifs on small enterprice ceramic industry.
3. Methode : Manufacturing Product with CNC Retrovit to make master mold of jewelry, Fabricaton Product of jewelry ceramic, Assembly product of jewelry ceramic to be necklace
4. Main Finding : Four types of master pattern jewelry prints with Indonesian batik textures. the process of making gypsum-based jewelry mold patterns. The process of making a pendant with ash bone china ceramic. the result of this product is a necklace made from ceramic.
5. Implication : The output of this study has significant implications for researchers and the manufacturing industry in the field of ceramic manufacturing. This research also has implications for the use of modern computer-aided reverse-engineering systems to improve product quality and capacity.
