Page 49 - 《含能材料》2018年优秀论文
P. 49

!"#$%“ &'” ()*+,-./0                                                                              1 9

             actionsin crystallinematerials[J].ActaMaterialia,2011,59  shockedenergeticmaterials:physicsofvoid· voidinteractions
             (20):7695 - 7702.                                   [J].ShockWaves,2013,23(6):537 - 558.
         [43]LaBarberaD A,ZikryM A.Theeffectsofmicrostructuraldefects  [62] RaiN K,UdaykumarH S.Mesoscalesimulation ofreactive
             onhotspotformationincyclotrimethylenetrinitraminepolychlo  pressedenergeticmaterialsundershockloading[J].Journalof
             rotrifluoroethyleneenergeticaggregates[J].JournalofApplied  AppliedPhysics,2015,118(24):245905.
             Physics,2013,113(24):243502.                    [63]VanDuinACT,DasguptaS,LorantF,etal.ReaxFF:areactive
         [44]LaBarberaD A,ZikryM A.Heterogeneousthermomechanical  forcefieldforhydrocarbons[J].TheJournalofPhysicalChemis
             behaviorandhotspotformationinRDXestaneenergeticaggre  tryA,2001,105(41):93969409.
             gates[J].InternationalJournalofSolidsandStructures,2015,  [64]StuartSJ,TuteinAB,HarrisonJA.Areactivepotentialforhy
             62:91 - 103.                                        drocarbonswithintermolecularinteractions[J].TheJournalof
         [45]PanchadharR,GonthierKA.Energypartitioningwithinamicro  ChemicalPhysics,2000,112(14):6472 - 6486.
             particleclusterduetoimpactwitharigidplanarwall[J].Com  [65]LiuL,LiuY,ZybinSV,etal.ReaxFFlg:CorrectionoftheRe
             putationalMechanics,2009,44(5):717 - 744.           axFFreactiveforcefieldforLondondispersion,withapplications
         [46]PanchadharaR,GonthierKA.Mesoscaleanalysisofvolumetric  totheequationsofstateforenergeticmaterials[J].TheJournalof
             andsurfacedissipationingranularexplosiveinducedbyuniaxial  PhysicalChemistryA,2011,115(40):11016 - 11022.
             deformationwaves[J].ShockWaves,2011,21(1):43 - 61.  [66]TsaiDH.Structuraldefectsand"hotspot"formationinacrystal
         [47]GilbertJ,ChakravarthyS,GonthierKA.Computationalanalysis  linesolidunderrapidcompression.I.vacancyclustersandslip
             ofhotspotformationbyquasisteadydeformationwavesinpor  bands[J].TheJournalofChemicalPhysics,1991,95(10):
             ousexplosive[J].JournalofAppliedPhysics,2013,113(19):  7497 - 7503.
             194901.                                         [67]TsaiD H.Hotspotheatingfrom impuritiesandvacanciesina
         [48] ChakravarthyS,GonthierK A.Analysisofmicrostructurede  crystallinesolidunderrapidcompression[J].MrsOnlinePro
             pendentshockdissipationandhotspotformationingranularmet  ceedingsLibraryArchive,1992,296.
             alizedexplosive[J].JournalofAppliedPhysics,2016,120(2):  [68]TsaiD H,ArmstrongRW.Defectenhancedstructuralrelaxation
             024901.                                             mechanism fortheevolutionofhotspotsinrapidlycompressed
         [49]RaoPT,GonthierKA.Analysisofcompactionshockinterac  crystals[J].TheJournalofPhysicalChemistry,1994,98(43):
             tionsduringDDToflow densityHMX[C] ∥AIPConferencePro  10997 - 11000.
             ceedings.AIPPublishing,2017,1793(1):080004.     [69]ArmstrongRW,AmmonH L,ElbanW L,etal.Investigationof
         [50]AndersonCE.Anoverviewofthetheoryofhydrocodes[J].Inter  hotspotcharacteristicsinenergeticcrystals[J].Thermochimica
             nationalJournalofImpactEngineering,1987,5(1 - 4):33 - 59.  Acta,2002,384(1):303 - 313.
         [51]NajjarFM,HowardW M,FriedLE,etal.Computationalstudyof  [70]DlottD D,FayerM D.Shockedmolecularsolids:vibrationalup
             3D hotspotinitiationinshockedinsensitivehighexplosive[C] ∥  pumping,defecthotspotformation,andtheonsetofchemistry[J].
             AIPConferenceProceedings.AIP,2012,1426(1):255 - 258.  TheJournalofChemicalPhysics,1990,92(6):3798 - 3812.
         [52]LevesqueG,VitelloP,HowardW M.Hotspotcontributionsin  [71]¯Ê,¯Mµ,NO¶,ï. ¾71?#Á»&'{|(th?
             shockedhigh explosivesfrom mesoscale ignition models[J].  )KLIJ[J]. ˾7OJ,1996(2):49 - 52.
             JournalofAppliedPhysics,2013,113(23):233513.        LIU Qin,LIU Peide,ZHAO Zhuanghua,etal.Numericalcal
         [53]LevesqueG A,VitelloP,NicholsIIIAL,etal.Analysesonthe  culationofthemechanism forhotspotformationinshockedex
             effectofhotspotdensityonmaterialconsumptionrate[C] ∥Jour  plosivematerial[J].ChineseJournalofExplosivesandPropel
             nalofPhysics:ConferenceSeries.IOPPublishing,2014,500  lants,1996(2):49 - 52.
             (15):152010.                                    [72]KroonblawdM P,SewellTD.Anisotropicrelaxationofidealized
         [54]LevesqueG A,VitelloP.Theeffectofporemorphologyonhot  hotspotsincrystalline1,3,5triamino2,4,6trinitrobenzene
             spottemperature[J].Propellants, Explosives, Pyrotechnics,  (TATB)[J].TheJournalofPhysicalChemistryC,2016,120
             2015,40(2):303 - 308.                               (31):17214 - 17223.
         [55]SpringerH K,TarverCM,BasteaS.Effectsofhighshockpres  [73]JoshiK,LosadaM,ChaudhuriS.Intermolecularenergytransfer
             suresand poremorphologyon hotspotmechanismsin HMX   dynamicsatahotspotinterfaceinRDXcrystals[J].TheJournal
             [C] ∥AIPConferenceProceedings.AIPPublishing,2017,1793  ofPhysicalChemistryA,2016,120(4):477 - 489.
             (1):080002.                                     [74]LongY,LiuYG,NieFD,etal.Theoreticalstudyofbreaking
         [56]BensonDJ,ConleyP.Eulerianfiniteelementsimulationsofexperi  andslippingprocessesforHMX/graphiteinterface[J].Applied
             mentallyacquiredHMXmicrostructures[J].ModellingandSimula  SurfaceScience,2012,258(7):2384 - 2392.
             tioninMaterialsScienceandEngineering,1999,7(3):333.  [75]LongY,ChenJ.A moleculardynamicsstudyoftheearlytime
         [57]BaerM R.Modelingheterogeneousenergeticmaterialsattheme  mechanicalheatinginshockloadedoctahydro1,3,5,7tetran
             soscale[J].ThermochimicaActa,2002,384(1):351 - 367.  itro1,3,5,7tetrazocinebasedexplosives[J].JournalofAp
         [58]SambasivanS,KapahiA,UdaykumarH S.Simulationofhigh   pliedPhysics,2014,116(3):033516.
             speedimpact,penetrationandfragmentationproblemsonlocally  [76]AnQ,ZybinSV,GoddardIIIW A,etal.Elucidationofthedy
             refinedCartesian grids[J].JournalofComputationalPhysics,  namicsforhotspotinitiationatnonuniform interfacesofhighly
             2013,235:334 - 370.                                 shockedmaterials[J].PhysicalReview B, 2011, 84(22):
         [59]TranL,UdaykumarH S.Simulationofvoidcollapseinanener  220101.
             geticmaterial,Part1:Inertcase[J].JournalofPropulsionand  [77]AnQ,GoddardIIIW A,ZybinSV,etal.Highlyshockedpoly
             Power,2006,22(5):947 - 958.                         merbondedexplosivesatanonplanarinterface:Hotspotforma
         [60]TranL,UdaykumarH S.Simulationofvoidcollapseinanener  tionleadingtodetonation[J].TheJournalofPhysicalChemistry
             geticmaterial,Part2:reactivecase[J].JournalofPropulsion  C,2013,117(50):26551 - 26561.
             andPower,2006,22(5):959 - 974.                  [78]CaiY,ZhaoFP,AnQ,etal.Shockresponseofsinglecrystal
         [61] KapahiA, UdaykumarH S.Dynamicsofvoid collapse in   and nanocrystalline pentaerythritoltetranitrate: Implicationsto


         CHINESEJOURNALOFENERGETICMATERIALS                  !"#$                 2018% & 26' & 1( (11 - 20)
   44   45   46   47   48   49   50   51   52   53   54