Rock Pressure Activity Regularly due to Underground Mining of the Deep Phosphorus Ore with Several Inclination by Similar Material Simulating Experiment

Xiao Shuang Li; Yao Ji Li; Meng Lai Wang; Shu Hu

doi:10.4028/www.scientific.net/AMM.529.260

Paper Titles

Experimental Research on the Stiffness of Gravel Cushion with the Influence of Geogrid
p.242

The Current Status and Future Directions of Cutting Tool Materials
p.247

Effect of Hydrothermal Aging on the Phase Stability, Microstructure and Mechanical Properties of Dental 3Y-TZP Ceramics
p.251

Anti-Rutting Performance Analysis of Asphalt Mixture with Different Natural Asphalt
p.256

Rock Pressure Activity Regularly due to Underground Mining of the Deep Phosphorus Ore with Several Inclination by Similar Material Simulating Experiment
p.260

Off-Design Load Characteristics of Consumption-Deviation Coefficient for 300MW Circulating Fluidized Bed Coal-Fired Unit
p.267

Numerical Simulation of the Flow Characteristics of 35t/h Internally Circulating Fluidized Bed
p.272

A Comparison of 3D and Axi-Symmetric Models in Pipe Welding Simulation Process
p.277

Thermal Deformation Analysis on Joint-Locking Device Used in Space Deployable Equipment
p.282

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 529Rock Pressure Activity Regularly due to...

Rock Pressure Activity Regularly due to Underground Mining of the Deep Phosphorus Ore with Several Inclination by Similar Material Simulating Experiment

Abstract:

On basis of the geology mining condition of the deep ore bodies of north mining area of Two-hang hau of Jingning mine of Yunnan phosphate group Co. Ltd, the strata behavior regularity of the working-face in the process of underground mining was systematic research with the dip angle of twenty degreen and fity degren. The result showed that:(1) after the underground mining of the phosphorus ore , the stress bearing of the excavation phosphate rock transfer to the surrounding rock mass, the initial rock stress was disturbated, this process has been extend outward with the expansion of the excavation space, deformation and failure problems has been happened, and the new stress equilibrium will be formed in the last, mined-out area was formed after ore body,s excavation, near the gob roof area formated stress unloading area, stress formed in certain areas ahead of the stope roof pressurization district, with the excavation of the ore bodies, the roof stress pressurization district dynamic forward position, the pressurization district scope and degree of pressure also decreases as the excavation scope of mined-out area space and gradually increase, and is located in the rear area of the stope deformation of old goaf roof damage fracture belt and the abscission zone was gradually closed. and in the mined-out area space range after reaching a certain size tends to be stable,then recovery section stress and to support its upper part of the gravity of overburden rock. (2)As the orebody dip Angle increases, the same excavation space range, goaf in front of the maximum stress concentration factor was reduced, unloading of overburden rock and concentrated area of the whole range becamed smaller, the rock pressure activity becamed easing as a whole. Relevant results can provide Yunnan phosphate group co., LTD., subordinate to the mines and mining under similar conditions of phosphate rock mountain project to provide certain reference basis.

You might also be interested in these eBooks

Mechanical Automation and Materials Engineering II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 529)

Pages:

260-264

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.529.260

Citation:

Cite this paper

Online since:

June 2014

Authors:

Xiao Shuang Li*, Yao Ji Li, Meng Lai Wang, Shu Hu

Keywords:

Mining of Deep Ore Body of Phosphate Rock Mountain, Numerical Simulation of Flace^3D, Rock Pressure Activity Regularly

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Xiaoshuang LI, Yaoji LI. Status and Prospect of phosphorite resource exploitation in our country [C]/ China Mining Technology Conference'2012: [s. n. ]. 2012：20-23(in chinese).

Google Scholar

[2] Xueliang Jiang. The mutual influence of rock of underground caverns and slope [D] Changsha: Central south university 2008(in chinese).

Google Scholar

[3] Yaoji LI, Xiaoshuang LI, Dongming Zhang. Phosphate o8re mountains deep underground mining techniques [M]. Beijing : Metallurgical Industry Press, 2013(in chinese).

Google Scholar

[4] Yaoji LI, Xiaoshuang LI, Huang Gun. Research on mining technology of large-scale open pit Phosphoresce open pit to underground [M]. Chong Qing：ChongQing University Press，2011(in chinese).

Google Scholar

[5] Xiangyang Li. Research on the deformation characteristics of mined-out area overlying rock mass[D]. Changsha: Central South University , 2008(in chinese).

Google Scholar

[6] Guangzhi Yin, Xiaoshuang LI, Yaoji LI. Bottom friction model to simulate excavation to underground goaf response characteristics of its deformation and stability of the slope under the influence [J]. Journal of Beijing University of Science and Technology, 2012，34(3)：231-238(in chinese).

Google Scholar

[7] Guangzhi Yin, Xiaoshuang LI, Yaoji LI, at. al. Similar simulation experiment research on the response deformation characteristics of slope and surrounding rock of stope [J]. Chinese Journal of Rock Mechanics and Engineering, 2011，30(Z1)：2913-2923(in chinese).

Google Scholar

[8] Chun Li. u . Tthe development and research values of rock and soil mechanical parameters database [D]. Wuhan: Wuhan Institute of Rock and Soil mechanics , Chinese Academy of Sciences, 2003(in chinese).

DOI: 10.18690/actageotechslov.15.1.17-27.2018

Google Scholar

[9] Changwu Liu. Research on the mining disturbance and simulation of Strata spatial stress [M]. Zheng Zhou：The Yellow River water conservancy press，2005(in chinese).

Google Scholar

[10] Xiaoshuang LI , Yaoji LI , Guangzhi YIN, Lin HE. Similar simulation experimental investigation on the stability of the stope roof of gently inclined medium thick phosphate rock under the ming of cemented backfilling of waste rock [C]/ The 2nd International Conference on Mechanic Automation and Control Engineering. Hohhot, China: [s. n. ]. 2011：7674-7678(in chinese).

DOI: 10.1109/mace.2011.5988827

Google Scholar

[11] Xiaoshuang LI , Yaoji LI , Guangzhi YIN, Lin HE. Similar simulation experimental investigation on the deformation and failure character of the stope pillar of gently inclined and medium thick phosphate rock under pillar and room caving [C]/ The 2nd International Conference on Mechanic Automation and Control Engineering. Hohhot, China: [s. n. ]. 2011：7668-7673(in chinese).

DOI: 10.1109/mace.2011.5988826

Google Scholar

[12] Bo Liu, Yanhui Han. FLAC principle instance and application guide [M]. Bei Jing：China Communications Press，2005(in chinese).

Google Scholar