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Volume 31 Issue 2
May  2014
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Article Navigation >  Explosion And Shock Waves  > 2011  >  31(2): 185-190
ZHNAG Ding-shan, RUAN Wen-jun, WANG Hao, GUO Jin-yan, WANG Shan-shan. Experimentalinvestigationandmechanismanalysisonhigh-speedignitionbydetonation[J]. Explosion And Shock Waves, 2011, 31(2): 185-190. doi: 10.11883/1001-1455(2011)02-0185-06
Citation: ZHNAG Ding-shan, RUAN Wen-jun, WANG Hao, GUO Jin-yan, WANG Shan-shan. Experimentalinvestigationandmechanismanalysisonhigh-speedignition bydetonation[J]. Explosion And Shock Waves, 2011, 31(2): 185-190. doi: 10.11883/1001-1455(2011)02-0185-06
shu

Experimentalinvestigationandmechanismanalysisonhigh-speedignition bydetonation

doi: 10.11883/1001-1455(2011)02-0185-06
  • 1.

    SchoolofEnergyandPowerEngineering,NanjingUniversityofScienceandTechnology,

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  • Corresponding author: RUAN Wen-jun
  • Publish Date: 2011-03-25
    Abstract
  • Tovalidatethefeasibilityofhigh-speedignitionbydetonationandfindouttheignition mechanism,anexperimentalsystemwasdevelopedfortheinvestigationofdetonationignitionwithan in-lineexplosiveinitiator.Thepressurechangesinthetestfacilitiesafterignitionatspecificcharges weremeasuredbythissystem.Theignitiondelaytimewasachieved0.3msbytheignitionmethod. Thecharacteristicsofpowderburningandtheattentionsinpracticalapplicationswereobtainedbythe wayofignition,suchasthestructurestrengthofthetestfacilitiesclosetotheexplosionspot,theattenuationcourseofdetonationwaveandsoon. Themechanismofthehigh-speedignitionbydetonationwasanalyzed. Theinvestigatedresultscanprovidehelpforapplyingtheignitionbydetonationto engineering.
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