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Structural Design and Finite Element Analysis of Truss Canal Slope

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DOI: 10.23977/jemm.2021.060104 | Downloads: 35 | Views: 1416

Author(s)

Pengbo Zhang 1, Sai Yang 1, Yinlei Li 1, Lulu Li 1

Affiliation(s)

1 Journal of North China University of Water Resources and Electric Power, He Nan Zhengzhou, 450045, China

Corresponding Author

Sai Yang

ABSTRACT

The material and structure form of truss channel slope desilting machine are selected and designed, then the three-dimensional solid model is modelled by Solidworks software, and the model is meshed and loaded into the ANSYS workbench. Then the stress, strain change and frequency and mode of the first eight modes are obtained by using the static structure module and modal module.

KEYWORDS

Solidworks, truss, ANSYS workbench, mode, mode of vibration

CITE THIS PAPER

Pengbo Zhang, Sai Yang, Yinlei Li, Lulu Li. Structural Design and Finite Element Analysis of Truss Canal Slope. Journal of Engineering Mechanics and Machinery (2021) Vol. 6: 23-29. DOI: http://dx.doi.org/10.23977/jemm.2021.060104

REFERENCES

[1] Pan J. W., Guo S. Y. (2019) A Truss Mower Design for the Canal Slope. Henan Technology, 02, 54 - 55.
[2] Zhu L. G. (2003) Brief Mechanical Parts Design Manual. Beijing: Machinery Industry Press.
[3]Cheng D. X. (2008) Mechanical Design Manual. Beijing: Chemical Industry Press.
[4]Jiang S. M. (2019) ANSYS Workbench 19.0 Basic Introduction and Engineering Practice. Beijing: People's Post and Telecommunications Press.
[5]Zhang J. J. (2018) FEA Analysis and ANSYS Workbench Engineering Application. Xi an: Northwest Polytechnic University Press, 67 - 68. 
[6]Zhou S. W., Chen H. (2021) Modal Analysis of Vertical Composite Bar Transducer Based on ANSYS Workbench. Mechanical Design and Manufacturing Engineering, 50, 01, 1 - 4.
[7]Liu H. W. (2016) Material mechanics. Beijing: Higher Education Press.
[8]Zhang Z. W. (1997) Crane Design Manual. Beijing: China Railway Press.

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