A Rock Mass Classification Method for Tuff Tunnel Based on the High-Pressure Gas Expansion Method

Huaide Peng; Danli Li; Jia Sheng; Bing Dai; Qi Da

doi:10.1155/2023/2798187

Journal of Engineering (Jan 2023)

A Rock Mass Classification Method for Tuff Tunnel Based on the High-Pressure Gas Expansion Method

Huaide Peng,
Danli Li,
Jia Sheng,
Bing Dai,
Qi Da

Affiliations

Huaide Peng: School of Resource Environment and Safety Engineering
Danli Li: School of Resource Environment and Safety Engineering
Jia Sheng: State Key Laboratory of Safety Technology of Metal Mines
Bing Dai: School of Resource Environment and Safety Engineering
Qi Da: School of Resource Environment and Safety Engineering

DOI: https://doi.org/10.1155/2023/2798187
Journal volume & issue: Vol. 2023

Abstract

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A precise rock mass grade result is crucial for directing the tunnel excavation engineering design. A novel rock mass classification method for tuff tunnel based on the high-pressure gas expansion method (HPGEM) was proposed, which was primarily built on field test data previously acquired by the research team. The main achievements are as follows: combined with field data and the HPGEM rock-breaking theory, analyzing the rock uniaxial compressive strength, rock mass integrity index, and the relationship between the gas generator unit consumption and fitted the relevant equations. After that, the rock optimal uniaxial compressive strength (about 150 MPa) and the rock integrity factor (about 0.85) were obtained. With reference to the BQ rock mass classification method, a new rock mass classification method that applied to HPGEM was proposed. This study fills the gap of the appropriate rock mass classification method requested on HPGEM.

Published in Journal of Engineering

ISSN: 2314-4904 (Print); 2314-4912 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: https://www.hindawi.com/journals/je/

About the journal