Litcius/Paper detail

Blasting induced dynamic response analysis in a rock tunnel based on combined inversion of Laplace transform with elasto-plastic cellular automaton

Wanquan Mei, Mei Li, Peng‐Zhi Pan, Junfeng Pan, Kunlun Liu

2020Geophysical Journal International23 citationsDOI

Abstract

SUMMARY The dynamic disturbance from explosion, earthquakes and stress impact may induce rock mass damage around the deep-buried tunnel. Here, we show the dynamic responses triggered by blasting load disturbance. In this paper, the theoretical formulae are first derived to evaluate the time-domain dynamic responses based on the wave function expansion method and the inversion of Laplace transform and then a self-developed numerical code, that is, elasto-plastic cellular automaton (EPCA), a module of CASRock, is subsequently employed to simulate the blasting induced elasto-plastic dynamic responses. It can be found from the analytical solutions that tensile stress concentration at two sidewalls occurs, while compressive counterpart at the roof and floor appears. Moreover, the radial velocity vibrations generate concentration at the two sidewalls, while the circumferential counterparts appear at the roof and floor. The numerical simulations indicate that compression-shear and tensile failure are the major mechanism for the rock mass damage around the rock tunnel. The analytical and numerical results help to understand the velocity vibrations and the major mechanism of rock mass damage and provide theoretical basis for the support of rock tunnel.

Topics & Concepts

Rock mass classificationLaplace transformClassification of discontinuitiesGeologyRoofVibrationGeotechnical engineeringComputer simulationExplosive materialCellular automatonStructural engineeringMechanicsComputer scienceEngineeringPhysicsAcousticsMathematicsMathematical analysisAlgorithmOrganic chemistryChemistryGeotechnical Engineering and Underground StructuresRock Mechanics and ModelingStructural Response to Dynamic Loads
Blasting induced dynamic response analysis in a rock tunnel based on combined inversion of Laplace transform with elasto-plastic cellular automaton | Litcius