中国钨业
中國鎢業
중국오업
CHINA TUNGSTEN INDUSTRY
2013年
2期
14-17
,共4页
矿山开采%稳定性%三维有限元%ANSYS
礦山開採%穩定性%三維有限元%ANSYS
광산개채%은정성%삼유유한원%ANSYS
mining%stability%3D finite element method%ANSYS
某钨矿山69#矿体为钽铌钨矿体,矿体构造复杂,空间跨度大,其开采的稳定性是该矿山生产中亟待解决的问题.根据矿山地质构造和工程设计方案,应用 ANSYS 软件进行三维有限元计算,模拟了矿体的分步开采过程,通过矿山开采过程中围岩的应力和位移变化,分析该矿体开采的稳定性.
某鎢礦山69#礦體為鐽鈮鎢礦體,礦體構造複雜,空間跨度大,其開採的穩定性是該礦山生產中亟待解決的問題.根據礦山地質構造和工程設計方案,應用 ANSYS 軟件進行三維有限元計算,模擬瞭礦體的分步開採過程,通過礦山開採過程中圍巖的應力和位移變化,分析該礦體開採的穩定性.
모오광산69#광체위단니오광체,광체구조복잡,공간과도대,기개채적은정성시해광산생산중극대해결적문제.근거광산지질구조화공정설계방안,응용 ANSYS 연건진행삼유유한원계산,모의료광체적분보개채과정,통과광산개채과정중위암적응력화위이변화,분석해광체개채적은정성.
The 69# tantalum, niobium and tungsten ore body of a tungsten mine exist features of complicated structure and large space span. The mining stability is a problem urgently to be solved in the mining process. Step-by -step mining of the ore body is simulated by ANSYS's 3D finite element method according to the geological structure and engineering design. The mining stability of the ore body is analyzed by stress and displacement variation of the surrounding rock.
