Perancangan Sistem Ekstruder untuk 3D Printer Cokelat
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Valkenaers, H., Vogeler, F., Ferraris, E., Voet, A., Kruth, J. P., Azcárate, S., Dimov, S. A Novel Approach to Additive Manufacturing: Screw Extrusion 3D-Printing. In Proceedings of the 10th international conference on multi-material micro manufacture. 2013 October; pp. 235-238.
Sam Daley. 3D printer. https://builtin.com/3d-printing. Sam Daley; 2022 (Diakses pada 29 Maret 2023)
Lanaro, M., Forrestal, D. P., Scheurer, S., Slinger, D. J., Liao, S., Powell, S. K., Woodruff, M. A. 3D Printing Complex Chocolate Objects: Platform Design, Optimization and Evaluation. Journal of Food Engineering. December 2017; 215: p. 13-22.
Reza, M. dan Setyawan, B.W. Pengaruh Movement Speed dan Kecepatan Putar Screw Extruder Terhadap Hasil Cetak Cokelat pada Mesin 3D Printing. Indonesia: Universitas Gadjah Mada; 2021.
Sinangling, G. H. dan Setyawan, B. W. Perancangan dan Pembuatan Mesin 3D Printer untuk Pencetakan Cokelat Dengan Metode Screw Extrusion Based Printing. Indonesia: Universitas Gadjah Mada; 2022.
Lee, J. M., Yeong, W. Y. A Preliminary Model of Time-Pressure Dispensing System for Bioprinting Based on Printing and Material Parameters: This Paper Reports A Method to Predict and Control the Width of Hydrogel Filament for Bioprinting Applications. Virtual and Physical Prototyping. January 2015; 10(1): p. 3-8.
Chen, X. B., Kai, J. ìModeling of Positive-Displacement Fluid Dispensing Processes, î IEEE Trans. On Electronics Packaging Manufacturing, vol. 27. 2004; pp. 157-163.
Chen, X. B., Shoenau, G., Zhang, W. J. Modeling of Time-Pressure Fluid Dispensing Processes. IEEE Transactions on Electronics Packaging Manufacturing, 2000; 23(4), 300-305.
Ness, C.Q. dan Lewis, A.R.,. Adhesives/Epoxies & Dispensing, Surface Mount Technology (SMT). 1998 May; pp. 114-122.
Mantihal, S., Prakash, S., Godoi, F. C., Bhandari, B. Optimization of Chocolate 3D Printing by Correlating Thermal and Flow Properties with 3D Structure Modeling. Innovative Food Science & Emerging Technologies, 2017; 44: 21-29.
Muhamad A., R., Anerasari M., Selastia Y., Rancang Bangun Alat Screw Extruder Pembuatan Medium Density Fiberboard Berbasis Serat Tandan Kosong Kelapa Sawit dan Perekat High Density Polyethylene (HDPE) (Uji Kinerja Alat Ditinjau Dari Efisiensi Screw Extruder). Januari 2022. p 37-49
Simanjuntak D. Studi Pengaruh Kenaikan Temperatur Pada Sambungan Konduktor Aluminium Dengan Tembaga. Indonesia: Univeritas Indonesia. 2010.
Gaspar-Cunha, A., Covas, J. A., Costa, M. F. P., Costa, L. Optimization of single screw extrusion. 2018.
Hassan Eslami. Understanding Screw Design for Film Extrusion Process. https://macroeng.com/understanding-screw-design-for-film-extrusion-process. Hassan Eslami: 2015 (Diakses pada 5 April 2023).
Campbell, G., Spalding, M. Single-screw extrusion: introduction and troubleshooting. Analysing and Troubleshooting Single Screw Extrusion, 2013. 1-22.
Mahardika R, Musthofa, M., Nurdin R.A., Wibowo S.B., Effect of movement speed and flow capacity on the printed chocolate in 3D printing machine. AIP Conf. Proc. 6 November 2023; 2693 (1): 030017. https://doi.org/10.1063/5.0118855
Rando, P., Ramaioli, M., Food 3D printing: Effect of Heat Transfer on Print Stability of Chocolate. Journal of Food Engineering. 294. 110415. 10.1016/j.jfoodeng.2020.110415.
DOI: http://dx.doi.org/10.32497/jrm.v19i2.5099
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