[1]席鹏,孙培培,郑亚峰,等.典型浇注PBX炸药的准静态压缩力学行为[J].爆破器材,2021,50(02):41-44,49.[doi:10.3969/j.issn.1001-8352.2021.02.008]
 XI Peng,SUN Peipei,ZHENG Yafeng,et al.Mechanical Behaviors of Typical Casting-PBX Explosives under Quasi-Static Compression[J].EXPLOSIVE MATERIALS,2021,50(02):41-44,49.[doi:10.3969/j.issn.1001-8352.2021.02.008]
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典型浇注PBX炸药的准静态压缩力学行为()
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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:
50
期数:
2021年02
页码:
41-44,49
栏目:
爆炸材料
出版日期:
2021-04-09

文章信息/Info

Title:
Mechanical Behaviors of Typical Casting-PBX Explosives under Quasi-Static Compression
文章编号:
5484
作者:
席鹏孙培培郑亚峰南海潘文
西安近代化学研究所(陕西西安, 710065)
Author(s):
XI Peng SUN Peipei ZHENG Yafeng NAN Hai PAN Wen
Xi’an Modern Chemistry Research Institute (Shaanxi Xi’an, 710065)
关键词:
浇注PBX炸药准静态压缩损伤行为压缩应变
Keywords:
casting-PBX explosive quasi-static compression damage behaviors compressive strain
分类号:
TQ564; TD235.2+1
DOI:
10.3969/j.issn.1001-8352.2021.02.008
文献标志码:
A
摘要:
采用定应变压缩试验研究了准静态压缩条件下浇注PBX炸药(浇注型高聚物黏结炸药)的力学行为,测试了典型浇注炸药PBX-1在损伤前、后的性能,获得了炸药的真应力-应变曲线。试验结果表明,浇注PBX炸药在准静态压缩条件下的力学行为分为接触压缩、弹性变形、损伤破坏和应变软化4个阶段。在压缩应变不超过损伤应变时,PBX-1炸药主要以弹性变形为主,屈服强度和屈服应变没有发生明显改变;在压缩应变超过损伤应变后,炸药中黏结剂断裂,颗粒脱黏,发生塑性变形。压缩应变增加至8%后,PBX-1炸药密度降低,残余应变增大;PBX-1炸药的屈服强度为0.6 MPa,屈服应变为10.6%,损伤应变为8%,炸药的损伤应变可以作为强度校核的依据。
Abstract:
Mechanical behaviors of casting-PBX explosives under the quasi-static compression were studied by constant strain compression test. Properties of PBX-1, a typical casting explosive, were tested before and after its damage. The tress-strain curves of PBX-1 were obtained. The results show that the distortion of casting-PBX explosives under quasi-static compression can be divided into four stages: contact compression, elastic deformation, damage and fracture, and strain softening. When the compression strain is less than the damage strain, explosive PBX-1 mainly presents the elastic deformation, and the yield strength and the yield strain nearly unchange. When the compression strain is more than the damage strain, binder in PBX-1 fractures and the particles debond from the binder, which can result in the plastic deformation of the explosive. Density declines and residual strain increases when the compression strain of the explosives increases to more than 8%. Yield strength, yield strain, and damage strain of the PBX-1 are 0.6 MPa, 10.6%, and 8%, respectively. The damage strain of explosive can be used as the basis of the strength check.

参考文献/References:

[1]ELLIS K,LEPPARD C,RADESK H. Mechanical properties and damage evaluation of a UK PBX[J].Journal of Materials Science,2005,40(9):6241-6248.
[2]唐明峰,庞海燕,蓝林钢,等.RDX基PBX的本构行为与应变历史、应变率效应[J].含能材料,2016,24(9):832-837.
TANG M F,PANG H Y,LAN L G,et al.Constitutive behavior of RDX-based PBX with loading-history and loading-rate effects [J].Chinese Journal of Energetic Materials,2016,24(9):832-837.
[3]陈鹏万,黄风雷,张瑜,等.用巴西试验评价炸药的力学性能[J].兵工学报,2001,22(4):533-537.
CHEN P W,HUANG F L,ZHANG Y,et al.Brazilian test and its application in the study of the mechanical properties of explosives[J].Acta Armamentarii,2001,22(4):533-537.
[4]李媛媛,高立龙.国外高聚物粘结炸药在大中口径炮弹中的应用 [J].飞航导弹,2016(2):80-83.
LI Y Y,GAO L L.Application of polymer bonded explosives in large diameter shells abroad [J].Aerodynamic Missile Journal,2016(2):80-83.
[5]席鹏,南海.串联侵彻战斗部装药技术特点及发展趋势[J].飞航导弹,2014(6):87-89.
XI P,NAN H.Technical characteristic and development trend of the rear charge for tandem warhead [J].Aerodynamic Missile Journal,2014(6):87-89.
[6]席鹏,王晓峰,郑亚峰,等.压应力对浇注PBX装药侧隙缺陷的影响[J].含能材料,2014,22(5):674-677.XI P,WANG X F,ZHENG Y F,et al.Influence of compressive stress on annular gap defect of casting-PBX charge [J].Chinese Journal of Energetic Materials,2014,22(5):674-677.
[7]席鹏,郑元锁,陈春燕,等.浇注PBX炸药的准静态压缩力学性能[J].火工品,2017(2):42-45.
XI P,ZHENG Y S,CHEN C Y,et al.Static compression mechanical properties of casting-PBX[J].Initiators & Pyrotechnics,2017(2):42-45.
[8]贾宪振,王浩,王建灵,等.PBX炸药的抗压强度及抗拉强度细观尺度的数值计算[J].火炸药学报,2014,37(1):49-52.
JIA X Z,WANG H,WANG J L,et al.Micromechanics-based numerical calculation of compressive strength and tensile strength of PBX explosives[J].Chinese Journal of Explosives & Propellants,2014,37(1):49-52.
[9]李尚昆,黄西成,王鹏飞.高聚物黏结炸药的力学性能研究进展 [J].火炸药学报,2016,39(4):1-11.
LI S K,HUANG X C,WANG P F.Recent advances in the investigation on mechanical properties of PBX[J].Chinese Journal of Explosives & Propellants,2016,39(4):1-11.
[10]孙国祥.混合炸药及其发展[M].西安:西安近代化学研究所,2008:75-79.
SUN G X.Research progress and trend of mixture explosives [M].Xi’an: Xi’an Modern Chemistry Research Institute,2008:75-79.
[11]倪冰,覃光明,冉秀伦.GAP/HTPB共混粘合剂体系的力学性能研究[J].含能材料,2010,18(2):167-173.
NI B,QIN G M,RAN X L.Mechanical properties of GAP/HTPB blend binders[J].Chinese Journal of Energetic Materials,2010,18(2):167-173.
[12] BOUMA R H B,COUNTOIS A,VERBEEK J H G,et al. Influence of mechanical damage on the shock sensitivity of plastic bonded explosives[C]//1999 Insensitive Munitions and Energetic Materials Technology Symposium.Tampa,FL,US,1999:183-191.

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备注/Memo

备注/Memo:
收稿日期:2020-05-24
第一作者:席鹏(1985-),男,硕士,高级工程师,主要从事炸药配方及工艺研究。E-mail:xipeng-57@163.com
更新日期/Last Update: 2021-04-09