Article Open Access http://dx.doi.org/10.26855/ojmcp.2024.12.001
An Intelligent Vibration Plate Made of Ultra-thin Material
Jinping Liu, Shengjun Wu, Liwu Cheng, Bojun Zhang, Cheng Chen
Shenzhen Gaostar Technology Co., Ltd., Shenzhen 518000, Guangdong, China.
*Corresponding author: Jinping Liu
Published: December 3,2024
Abstract
Intelligent vibration plate design technology is a key factor in China's realization of independent supply of production parts. In recent years, with the continuous improvement of China's industrial production automation level, this technology has been widely used in electricity, hardware, plastics, medicine, food, toys, stationery, daily necessities and other industries. The improved design of the vibration plate can improve production quality, enhance manufacturing accuracy, and thus reduce production costs. Under the fierce market competition and the trend of mechanical globalization, users have an increasing demand for manufacturing quality to improve efficiency, which puts forward more stringent standards for the design of vibration plates.
References
[1] Gong Yadong, Yuan Suoxian, Shi Jiashun. "Basics of Mechanical Manufacturing Technology" [M], Beijing: Science Press, 2019, 8-13.
[2] Cheng Daxian. "Mechanical Design Manual" [M], Beijing: Chemical Industry Press, 2020, 13-15.
[3] Cai Guangqi. "Basics of Mechanical Manufacturing Technology" [M], Shenyang: Northeastern University Press, 2019, 165-185.
[4] Chen Chaoxiang, Ye Xiuzi. Solid Works Parts and Assembly Tutorial [M]. Beijing: Machinery Industry Press, 2018. 65-68.
[5] Zhang Xiuyan, Huang Ying, Xiao Pingyang, Descriptive Geometry and Mechanical Drawing[M], Beijing: Higher Education Press, 2020, 18-21.
[6] Electromagnetic Vibrating Feeder Editorial Group. Electromagnetic Vibrating Feeder[M], Beijing: Machinery Industry Press, 2019, 69-72.
How to cite this paper
An Intelligent Vibration Plate Made of Ultra-thin Material
How to cite this paper: Jinping Liu, Shengjun Wu, Liwu Cheng, Bojun Zhang, Cheng Chen. (2024). An Intelligent Vibrating Plate Made of Ultra-thin Material. Open Journal of Materials Chemistry and Physics, 1(1), 1-5.
DOI: http://dx.doi.org/10.26855/ojmcp.2024.12.001