Litcius/Paper detail

Sensitivity analysis on blast design parameters to improve bench blasting outcomes using the Taguchi method

Mostafa Hosseini, Manoj Khandelwal, Rahman Lotfi, Mohsen Eslahi

2023Geomechanics and Geophysics for Geo-Energy and Geo-Resources28 citationsDOIOpen Access PDF

Abstract

Abstract In surface mines, bench blasting is a typical way of excavating hard rock mass. Although a significant development has taken place in explosive technology but still only a part of the energy is used to excavate and a large proportion of energy is wasted away and creates a number of nuisances. Backbreak, massive rock fragmentation, and high-intensity ground vibration are all symptoms of improper blasting. As a result, production costs increase significantly while productivity decreases. The blasting outcomes are affected by a variety of factors, which may be classified into three categories: rock properties, explosive properties, and blast geometry. Consequently, it is necessary to examine the effect of these parameters on bench blasting. So, in this study, a sensitivity analysis has been performed on various blast design parameters using the Taguchi method to study the influence of blast design parameters on blast vibration, backbreak, and rock fragmentation. A total of 32 experiments have been designed and numerical modeling was also carried out, using LS DYNA software to simulate the blast results. It was found that the blast hole diameter is the most important factor influencing the blasting outcomes. However, the number of rows in a blast affects backbreak almost slightly more than the hole diameter, but blast vibrations and the surrounding rock damage strongly depend on the hole diameter. Furthermore, rock blast geometry significantly affected rock blast vibration and damage compared to explosive properties. However, both blast geometry parameters and explosive properties play a significant role in backbreaking.

Topics & Concepts

Explosive materialRock blastingRock mass classificationTaguchi methodsStructural engineeringAir blastFragmentation (computing)VibrationSensitivity (control systems)Ground vibrationsGeotechnical engineeringMaterials scienceEngineeringGeologyMining engineeringComposite materialComputer sciencePhysicsAcousticsOrganic chemistryElectronic engineeringOperating systemChemistryRock Mechanics and ModelingMineral Processing and GrindingHigh-Velocity Impact and Material Behavior