Rock Mechanics
關(guān)注創(chuàng)建者:匿名 創(chuàng)建時間:2025-12-01
Rock Mechanics的視頻教程
(SCI復現(xiàn))LS-DYNA立井掘進爆破一次成井
基于1區(qū)SCI期刊《International Journal of Rock Mechanics and Mining Sciences》論文進行復現(xiàn)。包括立井掘進爆破理論知識講解、ANSYS數(shù)值建模和lspp后處理。若對學習有幫助,期待5星好評。
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Rock Mechanics的實例教程
Toppling Rock Slope Failures, Examples of Analysis and Stabilization. Rock Mechanics, Vol.13, pp.89–98.
[16] Amatruda G, Castelli M, Rouiller JD. Block toppling mechanism due to progressive failure of rock bridges. Felsbau 2004; 22(2):8–15.
Step Path Rock Bridge Percentage for Analysis of Slope Stability. American Rock Mechanics Association. 51st US Rock Mechanics / Geomechanics Symposium 2017 (pdf)
[4] Dershowitz W, Doe T, Uchida M, Hermanson J. (2003) Correlations between fracture size, transmissivity, and aperture. In; Soil and Rock America. In: Proceedings of the 12th Panamerican Conference on Soil Mechanics and Geotechnical Engineering, 39th US Rock Mechanics Symposium. Cambridge; 22-26 June. 2003. p. 887–891.
[5] Dershowitz, W., Lee, G., Geier, J., Foxford, T., LaPointe, P. & Thomas, A. (2014) FracMan Version 7.4 --- Interactive Discrete Feature Data Analysis, Geometric Modeling, and Exploration Simulation: User Documentation. Golder Associates, Redmond, Washington.
展開 主要的數(shù)據(jù)集中在下面的目錄:
:\Rock Mechanics\rockfall
:\Rock Mechanics\Step-Path-Failure(Discontinuity Persistence)
:\Rock Mechanics\rockbolting
:\Rock Mechanics\Bench
3 典型的巖崩過程
一個典型的巖崩過程包括整個過程包括自由落體(Free fall)、彈跳(Bouncing)、滾動(Rolling)和滑動(Sliding)。
基于審閱論文的編排, 本筆記對巖崩過程作進一步說明.
3.1 自由落體(Free Fall)
自由落體在很多情況下是巖崩的第一個動作,因為巖石經(jīng)常從陡峭的斜坡上脫離,然后只受到重力的影響,根據(jù)Bozzolo等人(1986年)的研究,空氣阻力可以被忽略,因為它僅相當于落石總重量的2%。在高而陡的斜坡坡面上,崩落的巖石不受斜坡坡度和地形影響而自由下落,崩落的巖石在沒有外力的阻擋下,發(fā)生自由下落的運動,崩落巖石在任意下落高度H時的速度V可以表示為:
3.2 彈跳(Bouncing)
如果速度足夠高的話,彈跳最常見于自由落體之后,巖石撞到一個表面(巖石、沙子、樹木)并彈起,繼續(xù)沿著斜坡發(fā)生更多的彈跳,直到塊體的速度太低。在巖崩運動過程中彈跳是一種比較復雜和不容易確定運動軌跡的運動模式。這一部分是最不容易理解的,也是下落階段中最難預測的部分。在建立巖崩模型時,通常用恢復系數(shù)來判斷崩落巖石在運動過程中造成的能量損失,把崩落巖石的撞擊問題看成是剛體之間的相互撞擊,避免了直接討論崩落巖石在碰撞過程中的非線性變形和摩擦問題. (Azzoni, 1995; Bozzolo, 1989)。崩落巖石在運動過程中發(fā)生碰撞反彈時,呈拋物線運動。
展開 [2] Dershowitz, W.S. (1984) Rock joint systems. MIT Ph.D Thesis. 918p.
[3] Staub I. et al (2002) Strategy for a Rock Mechanics Site Descriptive Model---Development and testing of the theoretical approach. Golder Associates AB. 219p.
1 引言
由于Gensim在上個星期升級到版本4.0.1, 因此需對代碼進行重新測試, 已經(jīng)發(fā)現(xiàn)部分代碼受到影響, 這個筆記對geotech-words-flashtext-combination進行了測試, 使用了關(guān)鍵詞"Rock Bolting/bolt Support", 同時對GeotechSet數(shù)據(jù)集進行了整體優(yōu)化.
巖石錨桿錨固節(jié)理化巖體---楔形效應的數(shù)值模擬(UDEC)
錨桿長度(Bolt length)的經(jīng)驗確定方法
全長粘結(jié)錨桿數(shù)值模型(fully grouted cable bolts)
巖石錨桿(Rockbolts)文獻聚合
錨桿加固全飽和斷裂多孔介質(zhì)的數(shù)值過程 [11/5/2020]
巖石錨桿錨固節(jié)理化巖體產(chǎn)生的楔形效應
巖石錨桿和錨索(Rockbolts and Cables)
巖石錨固的機理(Physical Mechanisms of Rock Bolting)
巷道圍巖塑性區(qū)的確定
2 數(shù)據(jù)集優(yōu)化
優(yōu)化后的數(shù)據(jù)保存在
{3DEC},
{Cable Bolting},
{Rock Slope},
{Rock bolting},
{fully grouted bolts},
{Engineering rock mass classification}
以及目錄X:\Geotech\Rock Mechanics\rockbolting中.
3 文獻聚合
[1] Ground Support Using Cable Bolts in Hard Rock Underground Mines.
展開 
Rock Mechanics的相關(guān)專題、標簽、搜索
Rock MechanicsrockMechanics of MaterialsApplied MechanicsRock Cutting SimulationDAMAGE MECHANICS *soft rock plasticity requires the use of *soft rock hardeningthe edge e2 is not valid for the underlying element 32771 instance rock-1 in *surface assembly_rock-1_rock-wx-linrockdigital rocksramms rockrocking column
Rock Mechanics的最新內(nèi)容
International Journal of Rock Mechanics and Mining Sciences, 2023, 167, 105389
文件列表:
Jcumt. 001163. 2.FAIRHURST C E,HUDSON J A.Draft ISRM suggested method for the complete stress-strain curve for intact rock in uniaxial compression[J].International Journal of Rock Mechanics and Mining
Sun et al., “Combined effects of thermal perturbation and in-situ stress on heat transfer in fractured geothermal reservoirs”,Rock Mechanics and Rock Engineering, no. 54, pp. 2165–2181, 2021.
[10]GHAZVINIAN A,SARFARAZI V,SCHUBERT W,et al.A study of the failure mechanism of planar non-persistent open joints using PFC2D[J].Rock mechanics and rock engineering,2012,45(5):677-693.
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Tijani. (2011) “A new numerical method to study isolated blocks around underground excavations taking into account in-situ stresses,” in Proceedings, 45th US Rock Mechanics / Geomechanics Symposium (San
International Journal of Rock Mechanics & Mining Sciences 138 (2021) 104598.
Journal of Rock Mechanics and Geotechnical Engineering 11(3): 445-463. 其中最主要的改進是Hoek與雅典大學(University of Athens)工程地質(zhì)學家Paul Marinos(2021年10月去世)合作對GSI計算方法的細化。
這個筆記反映了Q-Slope的最新進展,簡要概括了Bar and McQuillan 發(fā)表在EUROCK 2021(European Rock Mechanics Symposium, 21-24 September, 2021) 上的論文《Q-Slope application to coal mine stability》,這篇論文討論了Q-Slope在澳大利亞煤礦邊坡中的應用。
Nishimatsu (1986) 在他的綜述性論文《Rock mechanics activities in Japan》中總結(jié)了日本如何預防和預測巖爆和氣爆(瓦斯)的發(fā)生,其中一種方法是通過觀察地表的微震活動(microseismic activity)來測地下深層煤礦發(fā)生巖爆的位置和危險的可能性,并在積累的觀察數(shù)據(jù)基礎(chǔ)上決定停產(chǎn)或改變回采順序。
