学术报告会通知
报告题目:Overview of research on ground control safety at McGill University
报告人:Hani Mitri 教授
报告地点:雁塔校区图书馆二楼报告厅
报告时间:2014年05月31日(本周六)上午09点00分
主持人:戴俊 教授
主办单位:建筑与土木工学院 学科建设办公室 陕西省岩石力学与工程学会 研究生院
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Hani Mitri 教授简介
Hani Mitri 教授,毕业于加拿大麦克马斯特大学获矿业工程博士学位,现任加拿大麦吉尔大学矿业与材料系教授、系主任。国际著名岩石力学与采矿工程专家,加拿大岩石力学学会前任主席。长期从事巷道岩爆、巷道局部失稳、采矿诱发地震、动态化巷道支护、岩质边坡失稳等岩石力学问题研究。目前发表SCI论文200余篇,引用率超过1000次,Hani Mitri 教授担任国际知名期刊《the Canadian Geotechnical Journal》、《the International Journal of Mining》、《Reclamation and Environment》副主编、编委等。
Hani Mitri 教授报告内容摘要
报告题目:Overview of research on ground control safety at McGill UniversityAbstract
The stability of rock slopes in open pit mines is crucial to the safe and efficient operation of a surface mine. When not planned for, rock slope failures can cause injuries, equipment damage or loss, delayed production schedule, and even loss of economic ore. Slope monitoring has emerged as a viable engineering tool to help mine operators better understand rock slope behaviour and response to mining activities and environmental conditions during the life of the mine. This paper presents a state-of-the-art review of slope monitoring technologies with focus on the most recent development of ground-based synthetic aperture radar (GB-SAR). Discrete slope surface monitoring systems such as laser prism surveys and surface extensometers provide very accurate and precise point measurements. The data obtained from strategically placed discrete monitoring systems is generally sufficient to accurately describe simple, local failures. For large scale, complex failures however, monitoring systems that produce full-face scans such as radar are necessary. For the purpose of providing near real-time slope displacement data, the most suitable method is ground-based radar interferometry. High resolution, combined with large area coverage, thanks to the possibility of installing the radar at long distances from the slope, and short scan time, make GB-SAR one of the most effective slope monitoring technologies available today. In this paper, it is shown that the GB-SAR system is able to timely detect and provide alarms on large scale slope movements for both gentle and steep slopes, as well as local scale movements at bench-scale which is equally important to the safety of mine operators at the work face.
