Abstract
Investigating the ignition response of nitrate ester plasticized polyether(NEPE)propellant under dy-namic extrusion loading is of great significant at least for two cases.Firstly,it helps to understand the mechanism and conditions of unwanted ignition inside charged propellant under accident stimulus.Secondly,evaluates the risk of a shell crevice in a solid rocket motor(SRM)under a falling or overturning scene.In the present study,an innovative visual crevice extrusion experiment is designed using a drop-weight apparatus.The dynamic responses of NEPE propellant during extrusion loading,including compaction and compression,rapid shear flow into the crevice,stress concentration,and ignition re-action,have been firstly observed using a high-performance high-speed camera.The ignition reaction is observed in the triangular region of the NEPE propellant sample above the crevice when the drop weight velocity was 1.90 m/s.Based on the user material subroutine interface UMAT provided by finite element software LS-DYNA,a viscoelastic-plastic model and dual ignition criterion related to plastic shear dissipation are developed and applied to the local ignition response analysis under crevice extrusion conditions.The stress concentration occurs in the crevice location of the propellant sample,the shear stress is relatively large,the effective plastic work is relatively large,and the ignition reaction is easy to occur.When the sample thickness decreases from 5 mm to 2.5 mm,the shear stress increases from 22.3 MPa to 28.6 MPa,the critical value of effective plastic work required for ignition is shortened from 1280 μs to 730 µs,and the triangular area is easily triggering an ignition reaction.The propellant sample with a small thickness is more likely to stress concentration,resulting in large shear stress and effective work,triggering an ignition reaction.
基金项目
Joint key programs of National Natural Science Foundation of China(U22B20131)
State Key Laboratory of Explosion Science and Technology(QNKT23-10)
维普
万方数据