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21For citation: HE Yu-Chen, XU Qiao, CUI Xiao-Long, YANG Tao. Design of ceramic 3D printer //
URL: http://rectors.altstu.rU/ru/periodical/archiv/2021/1/articles/3_5.pdf DOI: 10.25712/ASTU.2410-485X.2021.01.020
UDK 738
Design of ceramic 3D printer*
HE Yu-Chen1, XU Qiao12*, CUI Xiao-Long1, YANG Tao1
1 Wuhan Textile University 2 Hubei Digital Textile Equipment Key Laboratory, Wuhan, 430020, China, E-mail: [email protected], [email protected]
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* This work was supported by the National Science Foundation of China (Grant No. 51541503), State Key Laboratory of New Textile Materials and Advanced Processing Technologies (Grant No. FZ2020008), Hubei Digital Textile Equipment Key Laboratory, and Hubei Province Natural Science Foundation of China (Grant No. 2020CFB769).
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Figure 1. Schematic diagram of coordinate conversion of ceramic 3D printer
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Наука и образование Большого Алтая
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Figure 2. Schematic diagram of ceramic 3D printer structure
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Figure 3. print head prints cylindrical motion track of ^100 (top) print head prints star object
model (left) motion track (right)
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References
[1] Li Yaogang, ye Xiaomeng, Ji Hongchao, Zhang Xuejing, Zheng Lei. Design and optimization of screw extruder for 3D printer of precursor ceramic materials [J]. Journal of Beijing University of technology, 2019,45 (12): 1173-1180
Наука и образование Большого Алтая
[2] Zhang Jing, Zhou Jing, Duan Guolin. Study on extrusion mechanism of ceramic 3D printer based on screw pump feeding [J / OL]. China Mechanical Engineering: 1-11 [2020-03-03]
[3] Cheng Jiajian, Hu Fuwen. Kinematics simulation analysis and experiment of SCARA ceramic 3D printer [J]. Industrial technology innovation, 2017,04 (04): 28-33
[4] Cong RIYUAN, Du Yungang, Lu Yue, Ma haopeng. Design and simulation analysis of extruder for ceramic 3D printer [J]. China ceramic industry, 2019,26 (04): 13-17
[5] Ding Chengjun, Wu Wei, Zhu Zhihui. Structural design and kinematic analysis of ceramic 3D printer [J]. Journal of Tianjin University of technology, 2018,37 (01): 83-88
[6] Ye Xiaomeng. Design and Simulation of slurry extrusion device for ceramic 3D printer [D]. North China University of technology, 2019.
[7] Li Yue. Structural design and optimization of parallel 3D printer [D]. Changchun University of technology, 2019.
