考虑药包爆破动-静时序作用的漏斗形成机理
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中图分类号:0383.1 国标学科代码:13035 文献标志码:A
Abstract:Research on blasting craters isoneof the most fundamental studies in blastingenginering.To elucidate the formation processand mechanisms ofblasting craters andto investigate theroles ofblasting stresswaves and explosion gases in rock fragmentation during thisprocess,a blasting load model was developed.This model is basedona double-expoential explosiveload functionandthe equationofstatefor explosiongas pressre,incorporating the dynamic-static sequentialfects of blasting.Bycombining the distinctloading characteristicsofblasting stresswaves and explosion gases,adiscrete elemnt numerical modelof the blasting craterwas established tosimulatethe developmentoffractures,rock fragmentationand ejectionof blastedrock.Simulations were performed both withand without the inclusionof explosion gasloading to explore the espective contributions of blasting stresswaves and explosion gases to crater formation.Theresults show thatthe blasting craterdimensions simulated with the dynamic-static sequential loading model aligncloselywith field testresults,acurately capturingthe formationand evolutionoffractures inthe blastingzoneandtheejectionbehavioroffragmentedrock.The high loadingrateofblastingstresswaves is the primarycauseofring-shaped microfractures in thenear-fieldregionofthe explosion source,whichcanalsoinducereflective tensiledamage,forming“slicedrop”failureatfreesurfaces.Explosion gases,onthe otherhand,arethemaindriversofradially extensive fractures inthefar-fieldregionof theexplosionsource and propel fragmentedrockoutwardatahigh velocity.Explosion gases exhibitnotonlyquasi-staticeffectsbutalsodynamic effects, extending the duration of blasting vibrations and amplifying the peak vibration velocity.The developmentof fractures during crater formationcanbebroadlycategorzed intothreestages:tresswave-induced fracturing,explosiongas-inducedfracturing, and deformation energy release-induced fracturing.
Keywords:blasting crater; blasting stresswave; explosion gas; fracture development; dynamic-static sequential action
钻孔爆破作为一种高效经济的破岩手段,长期应用于水利水电、矿山、交通、军事等多个领域[。(剩余19875字)