CC BY
52For citation: LuoWei, Yang Liye, ZhaoJia, Zhang Mengying, Chai Xuhui. Design of cleaning mechanism for screen printing table // URL: http://rectors.altstu.rU/ru/periodical/archiv/2020/1/articles/4_4.pdf DOI: 10.25712/ASTU.2410-485X.2020.01.012
UDK 655.335
Design of cleaning mechanism for screen printing table
LuoWei1, Yang Liye1, ZhaoJia1, Zhang Mengying1, Chai Xuhui1
1 Hubei Digital Textile Equipment Key Laboratory, School of Mechanical Engineering and Automation,
Wuhan Textile University, Wuhan 430073, China E-mall: [email protected]
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Наука и образование Большого Алтая» Ю1 ВЫПУСК Г2020
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Figure 1. Overall picture of automatic cleaning device for screen printing table 1 - frame; 2 - rotating mechanism; 3 - rotating motor; 4 - clutch mechanism; 5 - transmission mechanism; 6 - transmission motor
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Figure 2. Cleaning device diagram 1 - cleaning roller; 2 - rotating motor; 3 - clutch cylinder
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Figure 3. Working process diagram
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Наука и образование Большого Алтая» юз ВЫПУСК Г2020
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[1] äPXfö, . MR^SRiê^iftil [P]. tffl^'J: CN104553307A, 2015-04-29.
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[3] Xm^, [J]. 2015(06).
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[6] mm, ^M^. (IM) [M]. 2011.
References
[1] Kequan Z., Zhiming Z., Shunqi M. Automatic Cleaning Device For Screen Printing Screen Plate [P]. Chinese patent: CN104553307A, 2015-04-29.
[2] Fuling X., Yoming C. Hydraulic and Pneumatic Transmission (3rd edition) [M]. Beijing: Machinery Industry Press, 2007.
[3] Minglang C., Zhaowei S. Material Selection and Application in Mechanical Design [J]. Modern Manufacturing Technology and Equipment. 2015(06).
[4] Zili X., Xiaoping Z., Xiong Y. Engineering Materials [M]. Wuhan: Huazhong University of Science and Technology Press, 2003.
[5] Youlian C., Wenti Y. Mechanical Design [M]. Wuhan: Huazhong University of Science and Technology Press, 2011.
[6] Qingxiu F., xingzhong D. Electromechanical Transmission Control (5th edition) [M]. Wuhan: Huazhong University of Science and Technology Press, 2011.
Наука и образование Большого Алтая»
For citation: Lygdenov B.D., Markhasaeva Y.A., Markhasaev A.V., Mei Shunqi, Guriev A.M., Zheng Q. Thermodynamic model of steel saturation diffusion reaction // URL: http://rectors.altstu.rU/ru/periodical/archiv/2020/1/articles/4_5.pdf DOI: 10.25712/ASTU.2410-485X.2020.01.013
UDK 669.017
Thermodynamic model
of steel saturation diffusion reaction
12 2 2 1 1 3 1
B.D.Lygdenov ' , Y.A.Markhasaeva , A. V.Markhasaev , Mei Shunqi, A.M.Guriev' , Zheng Q
1 Wuhan textile University 2 East Siberia State University of Technology and Management 3 Polzunov Altai State Technical University
^Mr^^^ma [1-4]. ot^^Im, mm^M^^ri^MMfti^mnrMft^
WU^M^^ 38%Al2Ü3 + 25%B2Ü3 + 28%Al + 5%WÜ3 + 3%TiÜ2.
^m 298^ m 1323^ 100oC №
1) B2O3+2Al=2B+Al2O3
2) WO3+2Al=W+ AI2O3
3) 3TiO2+4Al=3Ti +2 AI2O3
4) 3O2+4Al=2 Al2O3
5) B2O3+4Fe=2FeB+Fe2O3
6) B2O3+2Fe=2B+Fe2O3
7) 3B+Fe3C=3FeB+C
8) 3B+2Fe3C=3Fe2B+C
