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The 3rd notification of the 14th conference on Explosion Mechanics Notification of the 14th conference on Explosion Mechanics (supplement) Contributions wanted for the special issue: the Propagation of Waves Explosion and Shock Waves is in the 6th edition of the list of S&T Journals of China List of awrard by Explosion and Shock Waves in 2022 Notification of the 14th conference on Explosion Mechanics
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Volume 30 Issue 4
May  2014
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Article Navigation >  Explosion And Shock Waves  > 2010  >  30(4): 424-428
LIAO Xue-yan, SHEN Zhao-wu, YAO Bao-xue, DONG Shu-nan, MA Hong-hao, JIANG Yao-gang. Energyoutputandmechanicalstrengthofaluminum-fibre-reinforcedcompositeexplosives[J]. Explosion And Shock Waves, 2010, 30(4): 424-428. doi: 10.11883/1001-1455(2010)04-0424-05
Citation: LIAO Xue-yan, SHEN Zhao-wu, YAO Bao-xue, DONG Shu-nan, MA Hong-hao, JIANG Yao-gang. Energyoutputandmechanicalstrengthof aluminum-fibre-reinforcedcompositeexplosives[J]. Explosion And Shock Waves, 2010, 30(4): 424-428. doi: 10.11883/1001-1455(2010)04-0424-05
shu

Energyoutputandmechanicalstrengthof aluminum-fibre-reinforcedcompositeexplosives

doi: 10.11883/1001-1455(2010)04-0424-05
  • 1.

    Departmentof ModernMechanics,UniversityofScienceandTechnologyofChina,

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  • Corresponding author: SHEN Zhao-wu
  • Publish Date: 2010-07-25
    Abstract
  • AluminumfibrewasaddedintoTNTandRDXexplosives,respectively,tosynthesizecompositeexplosiveswiththealuminum- fibremassfractionof0.2.Airblastexperimentswereconducted inasteelexplosion-containmentvesseltoinvestigatetheeffectsofaluminumfibreontheexplosiveenergyoutput. Resultsdisplaythattheoverpressureandexplosionheatofthealuminum-fibre-reinforcedcompositeTNTexplosivearriveat1.19and1.29timesashighasthoseofthepureTNTexplosive, respectively.Theoverpressureandexplosionheatofthealuminum-fibre-reinforcedcompositeRDXexplosivearriveat1.20and1.31timesashighasthoseofthepureRDXexplosive, respectively. Andtheexplosionheatofthealuminum-fibre-reinforcedcompositeRDXexplosiveis1.64 timesasmuchasthatofthepureTNTexplosive.Mechanicalstrengthtestswereperformedbya WDW4100almightytestsystemtoanalyzetheeffectsofaluminumfibreonthemechanicalstrengthof TNTexplosives.TestresultsshowthatthedamagestressofthecompositeTNTexplosiveisupto6. 87MPaandthecorrespondingstrainis0.043.Andaluminumfibrecanimprovethe mechanical strengthofexplosives.Thisresearchcanprovidereferenceforthedesignofhighexplosives.
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