Challenges

• Inaccessible, steep landslide area for investigating the site
• Understand why and how rock slope failed
• Design protective structures for unstable steep slope
• Develop construction sequence with minimal rail service disruption
• Difficult working conditions from continued rock and debris falls

Solutions

• Adopted LiDAR remote sensing techniques for mapping rockslide and adjacent rock slopes
• Used finite element analysis with discrete fracture network models to reproduce slope failure mechanism
• Applied dynamic run-out analyses to determine potential impact loads (through normal and shear stresses) on proposed protective structures
• Designed barrier wall and rock shed using pre-cast, modular concrete panels and footings
• Installed temporary mesh attenuation curtain to guide fallen debris safely under a tail drape

Successes

• Mapped slope geology and geomorphology
• Developed landslide triggering factors and potential failure mechanisms
• Determined failure mechanism where rock surface slid along stepped surface
• Calculated volume (magnitude) of landslide materials
• Developed appropriate design parameters for protective structures, consisting of mesh curtain, composite barrier wall and rock shed
• Minimal disruption to rail service during construction of protective structures
• No injuries to workers or new disruption to rail service due to occasional rock and debris falls