Stress-deformation and stability challenges in Himalayan tunnels: impact of geological discontinuities

Naeem Abbas; Kegang Li; Yewuhalashet Fissha; Wang Lei; Muhammad Zaka Emad; N. Sri Chandrahas; Jitendra Khatti; Blessing Olamide Taiwo; Mohammed Sazid; Zemicael Gebrehiwot; Shahab Hosseini; N. Rao Cheepurupalli

doi:10.1007/s43939-024-00144-z

Discover Materials (Nov 2024)

Stress-deformation and stability challenges in Himalayan tunnels: impact of geological discontinuities

Naeem Abbas,
Kegang Li,
Yewuhalashet Fissha,
Wang Lei,
Muhammad Zaka Emad,
N. Sri Chandrahas,
Jitendra Khatti,
Blessing Olamide Taiwo,
Mohammed Sazid,
Zemicael Gebrehiwot,
Shahab Hosseini,
N. Rao Cheepurupalli

Affiliations

Naeem Abbas: Faculty of Land Resource Engineering, Kunming University of Science and Technology
Kegang Li: Faculty of Land Resource Engineering, Kunming University of Science and Technology
Yewuhalashet Fissha: Department of Mining Engineering, Aksum University
Wang Lei: Faculty of Land Resource Engineering, Kunming University of Science and Technology
Muhammad Zaka Emad: Department of Mining Engineering, University of Engineering and Technology
N. Sri Chandrahas: Department of Mining Engineering, Malla Reddy Engineering College
Jitendra Khatti: Department of Civil Engineering, Rajasthan Technical University
Blessing Olamide Taiwo: Department of Mining Engineering, Federal University of Technology Akure
Mohammed Sazid: Department Mining Engineering, King Abdulaziz University
Zemicael Gebrehiwot: Department of Mining Engineering, Aksum University
Shahab Hosseini: Faculty of Engineering, Tarbiat Modares University
N. Rao Cheepurupalli: Department of Mineral Processing and Metallurgical Engineering Faculty of Mines, Aksum University

DOI: https://doi.org/10.1007/s43939-024-00144-z
Journal volume & issue: Vol. 4, no. 1
pp. 1 – 17

Abstract

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Abstract This study investigates stress-deformation behavior in Himalayan tunnels, focusing on how geological features impact stability. The objective is to enhance the understanding of displacement phenomena, particularly in tunnels traversing jointed rocks. A modified support system, to specific rock mass classifications, is employed to address the unique challenges posed by geological discontinuities. Kinematic analysis reveals a 20% probability of wedge failure due to these discontinuities. Numerical analysis using Hoek–Brown parameters identifies significant stress concentrations at the tunnel crown, especially in jointed sections, where increased convergence and displacement (1.2 mm at the crown compared to 0.25 mm at the walls) highlight the susceptibility to deformation. The study indicates the critical need for specialized support in jointed regions to mitigate stability risks.

Published in Discover Materials

ISSN: 2730-7727 (Online)
Publisher: Springer
Country of publisher: Switzerland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.springer.com/journal/43939

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