Abstract
Ceramic wall ornaments that are commonly used as interior building and encountered in hotels, restaurants, residential elite, museums and places of worship. Ceramic is a decoration signifying strong characters or special characteristics of the building. This character is usually in the form of ornaments that adorn the walls and are designed according to the history of the development of the times. The basic characteristic of Islamic Ornament generally shaped floral such as leaves, stems, buds, flowers, and palms. Wall tiles with special needs with unique ornaments and precision are very unlikely produced by some industrial ceramics in Indonesia at this time which still depends on hand made. This study has introduced a range of novel applications that combine digital manufacturing technology and conventional fabrication in the ceramic industry. The input image with the nuances of Islamic motifs with the format. JPG successfully raised to 2.5 D CAD models using ArtCAM software. To get the master pattern prints that precision, accurate and appropriate use of technology additive manufacturing with 3D Objet 30Pro. Conventional ceramics Manufacturing process technology at PT. Nuanza Porcelain Indonesia used to get ceramic products with Islamic nuances of Pattern puzzle flora. The integration of two technologies of CAD and RP this managed to get the design ceramic wall ornamental Islamic precision and detail with the dimensional error of less than 2.00 mm. Ceramic design results in accordance with Islamic ornamentation and was already installed in the mosque of Al Huda in 2018.
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References
Lang G (2004) Ten centuries of decorative ceramic 1000 tiles; 1st edition, Chronicle books LLC. ISBN: 0-8118-4235-5, USA
Renzi J (2009) The art of tile: designing with time-honored and new tiles; 1st edition, published in the United States by Clarkson Potter/Publisher, an imprint of the Crown Publishing Group, a division of Random House, Inc., New York, USA
Yao JG (2017) Application of computer-aided design in ceramic art design. 2017 International conference on manufacturing construction and energy engineering (IMCEE 2017). Hongkong, pp 252–256
Wang A-H, Sai S-T, Liu Y-M (2014) The high computer technology application study about the daily-use ceramic products design. IERI Procedia 10:184–189
Oancea G, Ivan NV, Pescaru R (2013) Computer-aided reverse engineering system used for customized products. Annals of MTeM for 2013 & proceedings of the 11th International MTeM Conference. Malaysia, pp 181–186
Anggoro PW, Bawono B, Sujatmiko I (2015) Reverse engineering technology in redesign process ceramics: application for CNN plate. Procedia Manufact 4:521–527
Ye XZ, Peng W, Chen ZY, Cai YY (2004) Today’s students, tomorrow’s engineers—an industrial perspective on cad education. Comput Aided Des 36:1451–1460
Ye X, Liu H, Chen L, Chen Z, Pan X, Zhang S (2008) Reverse innovative design—an integrated product design methodology. Comput Aided Des 40(7):812–827
Delchambre A (1996) CAD method for industrial assembly—concurrent design of products, equipment and control systems. Wiley, USA, Chichester
Hoffmann CM (1989) Geometric and solid modeling: an introduction. Morgan Kaufmann, USA, San Mateo
Iyer N, Kalyanaraman Y, Lou K, Jayanti S, Ramani K (2003) A reconfigurable 3D engineering shape search system part I: shape representation. In: DETC,’03
Tangelder J, Veltkamp R (2004) A survey of content-based 3D shape retrieval methods. In: International conference on shape modeling. pp 145–56
Funkhouser T, Min P, Kazhdan M (2003) A search engine for 3D models. ACM transactions on graphics. pp 83–105
Hong T, Lee K, Kim SC (2006) Similarity comparison of mechanical parts to reuse existing designs. Comput Aided Des 38(9):973–984
Pu JT, Jayanti S, Hou SY, Ramani K (2006) 3D CAD model retrieval based on multiple levels of detail. In: Pacific conference on computer graphics and applications
Zocca A, Colombo P, Gomes CM, Gunster J (2015) Additive manufacturing of ceramics: issues, potentialities, and opportunities. J Am Ceram Soc 98(7):1983–2001
Taib MZM, Rasdi MT (2012) Islamic architecture evolution: perception and behaviour. Procedia Soc Behav Sci 49:293–303
Abdullahi Y, Embi MR (2013) Evolution of Islamic geometric patterns. frontiers of architectural research. Front Archit Res 2:243–251
Othman HI (2012) Role of computer-aided design and computer-aided manufacturing technology in prosthetic implant restorations. Int J Dent Clin 4(4):22–34
Bechthold M (2016) Ceramic prototypes—design, computation, and digital fabrication. Informes de la Constr 68(544):1–11
Sanz V, Reig Y, Bautista Y, Ribes C, Edwards M (2012) Technical evolution of ceramic tile printing. J Imaging Sci Technol 56(5):50402-1-50402-7
Sanchez E, Garcia-Ten J, Sanz V, Moreno A (2010) Porcelain tile: almost 30 years of steady scientific-technological evolution. Ceram Int 36:831–845
Anggoro PW, Tauviqirrahman M, Jamari J, Bayuseno AP, Bawono B, Avellina MM (2018) Computer-aided reverse engineering system in the design and production of orthotic insole shoes for patients with diabetes. Cogent Eng 5(1):1–20
Anggoro PW, Tauviqirrahman M, Jamari J, Bayuseno AP, Wibowo J, Saputro YD (2019) Optimal design and fabrication of shoe last for ankle-foot orthotics for patients with diabetes. Int J Manuf Mater Mech Eng 9(2):92–99
Bechthold M, Kane AO, King N (2015) Ceramic material systems. Birkhäuser, Basel
Abdullahi Y, Embi MR (2015) Evolution of abstract vegetal ornaments in Islamic architecture. Int J Archit Res 9(2):31–49
Busheng L, Jing Fang H (2013) Development of ceramic three-dimensional design system based on sketch. Open Mechan Eng J 7:116–120
Koshnevis B (2001) Experimental investigation of contour crafting using ceramic materials. Rapid Prototyping J 7(1):32–41
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Anggoro, P.W. et al. (2020). Puzzle Islamic Floral Patterns Product Tiles for Wall and Ceiling to Decorate of Al Huda Mosque Indonesia—Design, Manufacturing, and Fabrication. In: Sabino, U., Imaduddin, F., Prabowo, A. (eds) Proceedings of the 6th International Conference and Exhibition on Sustainable Energy and Advanced Materials. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-15-4481-1_51
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