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Theoretical and Numerical Research on V‐Cut Parameters and Auxiliary Cuthole Criterion in Tunnelling

Xiaoming Lou, Bao Wang, En Hua Wu, Mingwu Sun, Ping Zhou, Zhenchang Wang

2020Advances in Materials Science and Engineering11 citationsDOIOpen Access PDF

Abstract

This paper aims at providing a sound theoretical solution to auxiliary central hole and the cutting parameters. For this purpose, the forming mechanism of V‐cut cavity for cutting blasting was performed based on the hypothetical rock breaking mechanism of V‐cut blasting. A theoretical solution for increasing the critical depth of the auxiliary center cuthole and the criteria for increasing the cuthole diameter of various types of cutholes when the rock attributes, explosive properties, and cuthole dip angle are constant are proposed. (1) If charging length l e < 0.75 H /sin θ , no auxiliary cuthole is needed. (2) If 0.75 H /sin θ < l e < 0.75 H /sin θ + (2∼4) × 0.1, a central vertical auxiliary hole is needed. (3) If 0.75 H /sin θ + (2∼4) × 0.1 < l e < 0.75( H /sin θ + H i /sin θ i ), a shallow inclined hole is needed. (4) If l e > 0.75( H /sin θ + H i /sin θ i ), both the central vertical cuthole and the shallow inclined cuthole are needed. Meanwhile, the theoretical solution was verified by numerical modelling with ANSYS/LS‐DYNA. Moreover, the field implementation of the V‐cut and the auxiliary hole effectively improved the blasting effect in both efficiency and economy.

Topics & Concepts

Explosive materialRock blastingQuantum tunnellingMaterials sciencePhysicsGeologyGeotechnical engineeringChemistryOptoelectronicsOrganic chemistryRock Mechanics and ModelingTunneling and Rock MechanicsMineral Processing and Grinding
Theoretical and Numerical Research on V‐Cut Parameters and Auxiliary Cuthole Criterion in Tunnelling | Litcius