Analytical Behavior of a Tunnel with Rock Bolts and Shotcrete During an Extreme Fire Event - NAT2022
- Organization:
- Society for Mining, Metallurgy & Exploration
- Pages:
- 21
- File Size:
- 10202 KB
- Publication Date:
- Dec 1, 2022
Abstract
Road tunnels in recent infrastructure projects in Sydney, Australia, are designed to have a fire resistance level of either a 4-hour cellulosic fire or a 2-hour hydrocarbon fire. Where permanent ground support for tunnels consists of systematic rock bolts and relatively thin layer of shotcrete, it is important to ensure that during and after the fire event the ground support is designed/predicted not to pose risks to the tunnel occupant. The global behavior of the ground support can be predicted using finite element analysis, and its resistance is derived with consideration of the material strength degradation due to the elevated temperature.
Citation
APA: (2022) Analytical Behavior of a Tunnel with Rock Bolts and Shotcrete During an Extreme Fire Event - NAT2022
MLA: Analytical Behavior of a Tunnel with Rock Bolts and Shotcrete During an Extreme Fire Event - NAT2022. Society for Mining, Metallurgy & Exploration, 2022.