Inspired by the phenomenon of superhydrophobic plants and animals in nature,1,3,5,7-tetranitro-1,3,5,7-tetrazocane(HMX)@copper stearate(CS)core-shell composites with similar properties was prepared.A rough shell layer on the surface of the HMX was observed by scanning electron microscopy(SEM),and a series of in-depth characterization confirmed the successful generation of CS and the core-shell structure of the samples.Differential scanning calorimeter(DSC)proves that the crystal transition temperature(204℃)and high temperature decomposition exothermal temperature(284℃)of HMX@CS is almost unchanged compared with pure HMX,which means HMX and CS have good compatibility.Then,the H50 of the samples also increased continuously(16.6 cm →33.7 cm)when the CS shell content increased from 1％to 5％,indicating that the CS shell has a certain buffering performance,and CS will absorb some heat and melt under the stimulation of impact due to its low melting point,which improved impact sensitivity of HMX effectively further.Moreover,HMX@CS has excellent hy-drophobic and oleophilic performance,shows excellent wettability with lipid binder,and samples with appropriate CS shell content can continue to combustion stably after covering water.This waterproof and low sensitivity coating provides a new way for the development of multifunctional energetic materials.

Yue-qi Li;Heng Zhai;Ping Ye;Xing-quan Zhang;Chang-ping Guo

Sichuan Co-Innovation Center for New Energetic Materials,Southwest University of Science and Technology(SWUST),Mianyang,621010,PR China;Analysis and Testing Center of Southwest University of Science and Technology(SWUST),Mianyang,621010,PR China

防务技术

[1]Yue-qi Li;Heng Zhai;Ping Ye;Xing-quan Zhang;Chang-ping Guo-.Preparation of the core-shell HMX@CS microparticles by biological excitation:Excellent hydrophobic-oleophilic properties and decreased impact sensitivity effectively)[J].防务技术,2022(05):855-861

tetranitro,tetrazocane,exothermal

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