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Xiao-Feng, G.. (2013). Research on type selection design for hydraulic support of fully mechanized coal face at heiliang coal mine. Shanxi Architecture.Xiao-FengG.2013Research on type selection design for hydraulic support of fully mechanized coal face at heiliang coal mineShanxi ArchitectureSearch in Google Scholar
Jian, S.. (2017). Hydraulic support of coal mine fully mechanized face retracement process improvement. Modern Industrial Economy and Informationization.JianS.2017Hydraulic support of coal mine fully mechanized face retracement process improvementModern Industrial Economy and InformationizationSearch in Google Scholar
Dong-Dong, W., Group, J. C., & Mine, F. C.. (2016). Optimization and analysis of support recovery technology in fully mechanized coal mining face. Shandong Coal ence & Technology.Dong-DongW.GroupJ. C.MineF. C.2016Optimization and analysis of support recovery technology in fully mechanized coal mining faceShandong Coal ence & TechnologySearch in Google Scholar
Lei, W. U.. (2016). Optimized design and application of main transport system in fully mechanized coal mining face. Shanxi Coking Coal ence & Technology.LeiW. U.2016Optimized design and application of main transport system in fully mechanized coal mining faceShanxi Coking Coal ence & TechnologySearch in Google Scholar
Chuan, Z.. (2011). Design of gate support for fully mechanized sublevel caving face in shallow thick coal seam. Shandong Coal ence & Technology.ChuanZ.2011Design of gate support for fully mechanized sublevel caving face in shallow thick coal seamShandong Coal ence & TechnologySearch in Google Scholar
Jessell, M., Bons, P., Evans, L., Barr, T., & Kurt Stüwe. (2001). Elle: the numerical simulation of metamorphic and deformation microstructures. Computers & Geoences, 27(1), 17–30.JessellM.BonsP.EvansL.BarrT.StüweKurt2001Elle: the numerical simulation of metamorphic and deformation microstructuresComputers & Geoences2711730Search in Google Scholar
Singh, I. V., Mishra, B. K., Bhattacharya, S., & Patil, R. U.. (2012). The numerical simulation of fatigue crack growth using extended finite element method. International Journal of Fatigue, 36(1), 109–119.SinghI. V.MishraB. K.BhattacharyaS.PatilR. U.2012The numerical simulation of fatigue crack growth using extended finite element methodInternational Journal of Fatigue361109119Search in Google Scholar
Shima, S., Kusano, K., Kawano, A., Sugiyama, T., & Kawahara, S.. (2010). Super-droplet method for the numerical simulation of clouds and precipitation: a particle-based microphysics model coupled with non-hydrostatic model. Quarterly Journal of the Royal Meteorological Society, 135(642).ShimaS.KusanoK.KawanoA.SugiyamaT.KawaharaS.2010Super-droplet method for the numerical simulation of clouds and precipitation: a particle-based microphysics model coupled with non-hydrostatic modelQuarterly Journal of the Royal Meteorological Society135642Search in Google Scholar
Darvishi, M. T., Khani, F., & Soliman, A. A.. (2007). The numerical simulation for stiff systems of ordinary differential equations. Computers & Mathematics with Applications, 54(7–8), 1055–1063.DarvishiM. T.KhaniF.SolimanA. A.2007The numerical simulation for stiff systems of ordinary differential equationsComputers & Mathematics with Applications547–810551063Search in Google Scholar