Material Selection and Finite Element Analysis for the Enclosure of Mine Exploration Robot

Zhi Ying Song; Jian Yang Zhao; Rui Qing Jia

doi:10.4028/www.scientific.net/AMR.936.2125

Paper Titles

The Simulation of Heat Transfer and Flow Performance for Supercharged Boiler Superheater
p.2103

The Resistance Performance Influences from Hull Line Variation of V-Shaped Non-Ballast Ship (NoBS)
p.2109

A Computational Fluid Dynamics Method for Resistance Prediction of the Floating Hull of Wave Glider
p.2114

Bifurcation and Chaos in Couplings with Clearance
p.2120

Material Selection and Finite Element Analysis for the Enclosure of Mine Exploration Robot
p.2125

Initial Pressure Influence on Explosion Pressures of Methane-Air Deflagrations in Linked Vessels
p.2130

Optimization Design of Transverse Flux Permanent Generator Based on Response Surface Method
p.2135

Application of the Lumped-Parameter Model in Concept Design Phase of Side Impact Safety Development
p.2140

Improved Dynamic Bayesian Networks in Sea-Battlefield Situation Assessment
p.2149

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 936Material Selection and Finite Element Analysis for...

Material Selection and Finite Element Analysis for the Enclosure of Mine Exploration Robot

Abstract:

This paper focuses on materials selection and finite element analysis for flameproof enclosure of mine exploration robot. The internal environment of abandoned mine is unknown, thus the robot must be designed explosion proof. This research deals with a safe solution to environment exploration for abandoned mines by using mine exploration robot. Modeling by using 3D software and finite element analysis verifies whether enclosure strength satisfies requirements. It will provide a reference for the development of mine exploration robot.

You might also be interested in these eBooks

Materials Science and Engineering Technology

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 936)

Pages:

2125-2129

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.936.2125

Citation:

Cite this paper

Online since:

June 2014

Authors:

Zhi Ying Song*, Jian Yang Zhao, Rui Qing Jia

Keywords:

Finite Element Analysis (FEA), Flameproof Enclosure, Material Selection, Mine Exploration Robot

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Pengfei Meng. Study on the Recycling of the Discarded Mine Resources, J. China Mining Magazine. 20(2011)62-65. In Chinese.

Google Scholar

[2] Guoliang Xu, Juru Yuan, Zhaoxiu Tu, et al. Utilization of Obsolete Mineral Mines, J. China Population, Resources and Environment. 22(2012)360-362. In Chinese.

Google Scholar

[3] Min Zhen, Junwei Zhao. A New Comprehensive Utilization Way of Abolished Mining Pits, J. Conservation and Utilization of Mineral Resources. 3(2003)49-53. In Chinese.

Google Scholar

[4] Xiexing Miao, Minggao Qian. Research on Green Mining of Coal Resources in China: Current Status and Future Prospects, J. Journal of Mining & Safety Engineering. 26(2009)1-14. In Chinese.

Google Scholar

[5] Information on http: /www. msha. gov, (2014).

Google Scholar

[6] Yong Wang, Hu Zhu, Yongsheng Wang, et. Current Status and Technical Problems in Research of Coal Mine Rescue Robot, J. Coal Mine Machinery. 28(2007)107-109. In Chinese.

Google Scholar

[7] Yunwang Li, Shirong Ge, Hua Zhu. Research on Application of Coal Mine Rescue Robots, J. Coal Mine Machinery. 30(2009)164-167. In Chinese.

Google Scholar

[8] Dan Zhou, Junjia Zhang, Zhiying Song, et. Modeling and Finite Element Analysis of Flameproof Enclosure of Coal Mine Mobile Mobile Robot. Coal Mine Machinery. 33(2012)84-86. In Chinese.

Google Scholar

[9] Yunwang Li, Shirong Ge, Hua Zhu, et. Design and Manufacture of Flameproof Enclosure of Coal Mine Rescue Robot, J. Coal Mine Machinery. 30(2009)104-106. In Chinese.

Google Scholar

[10] Song Qian, Chunming Ni. Enclosure Strength Design of Minning Flame Proof Electrical Apparatus, J. Colliery Mechanical & Electrical Technology. 6(2006)30-33. In Chinese.

Google Scholar

[11] Xiaoe Guo, Jinlu Zhao. Design of Mine Cylindrical Flameproof Enclosure, J. Colliery Mechanical & Electrical Technology. 1(2008)16-20. In Chinese.

Google Scholar

[12] Liping Gong, Zhian Song, Yu Wang. Design on Flameproof Cylindrical Enclosure for Coal Mine Based on Finite Element Method, J. Electric Explosion Protection. 3(2008)1-6. In Chinese.

Google Scholar

[13] Liping Gong, Zhian Song, Zeyong Liu. Design Method on Mine Cylinder Explosion – resistant Enclosure, J. Coal Mine Machinery. 30(2009)30-33. In Chinese.

Google Scholar

[14] Shuanghui Li. On the Explosion Pressure in Flame-proof Enclosures and the Influential Factors, J. Safety In Coal Mines. 34(2003)101-103. In Chinese.

Google Scholar

[15] Wenjie Li, Qingliang Zeng, Tao Yu, et. Finite element analysis for steel pressure vessel based on COSMOSWorks, J. Machinery Design & Manufacture. 5(2011)33-35. In Chinese.

Google Scholar