1. 引言
2. 岩石力学研究
[1] (1990) Redesign of the West Wall Kanmantoo Mine, South Australia.【Sarcheshmeh铜矿的边坡稳定性研究】
[2] (2002) Probabilistic modeling of plane failure in rock slopes. (pdf)【台阶平面破坏的概率分析(Plane Failure)】
[3] (2003) A Methodology for Reliability-Based Design of Rock Slopes. (pdf)【岩石工程基于性能的设计(Performance-based design in rock engineering)】
[4] (2015) Management of a Toppling Failure Wall Collapse at the Kanmantoo Copper Mine in South Australia【边坡倾倒破坏(Toppling Failure)分析V2022】
[5] (2015) Kanmantoo Mine - Rockfall and Rock Wall Failures - I-Site 8820 Laser Scanning Applications【魁北克Geohazards 8--为明天的创新地球科学(Innovative geosciences for tomorrow)】
[6] (2016) Three-dimensional numerical modelling of potential structurally controlled failure mechanisms at the Kanmantoo open pit. (pdf)【利用遥感和数值模拟相结合的方式评价边坡坡坏机制(Remote Sensing and Numerical Modeling)】
[7] (2020) Monitoring of structurally controlled deformations at the Kanmantoo copper mine. (pdf) 【地质力学的现场监测(Field Monitoring in Geomechanics)】
[8] (2020) Steep wall mining - engineered structures used in the management of rockfall hazards at Kanmantoo copper mine. (pdf)【岩石崩落分析与防护(Rockfall Analysis and Protection)】
[9] (2020) Slope angle versus slope height – the basis of an empirical tool for slope design within fractured rock masses using IUCM. (pdf)【露天矿整体边坡角优化技术(Overall Slope Angle Optimization)】
[10] (2020) Three-dimensional numerical modelling for successful design of steep slopes at the Kanmantoo copper mine. (pdf)【博丁顿金矿边坡稳定性(Rockfall)初步调查】
[11] (2020) Slope design and control of rock fall hazards in a challenging structural setting at the Kanmantoo copper mine.【露天采矿台阶楔形体稳定性(Bench Wedge Stability)】
[12] (2022) A tool to estimate factor of safety for varying slope height and angle in specific rock mass conditions. (pdf)【Toquepala mine---秘鲁最大露天铜矿的岩石力学研究】