含能材料
含能材料
함능재료
ENERGETIC MATERIALS
2014年
6期
792-797
,共6页
李玉斌%黄辉%潘丽萍%张建虎%李金山%郑保辉
李玉斌%黃輝%潘麗萍%張建虎%李金山%鄭保輝
리옥빈%황휘%반려평%장건호%리금산%정보휘
材料科学%界面作用%包覆%高氯酸铵(AP)%感度
材料科學%界麵作用%包覆%高氯痠銨(AP)%感度
재료과학%계면작용%포복%고록산안(AP)%감도
materials science%interfacial interaction%coating%ammonium perchlorate%sensitivity
为降低高氯酸铵( AP)的感度,以石蜡( wax)、热塑性聚氨酯( TPU)等为钝感包覆剂对 AP 进行了表面包覆。通过接触角、表面能的测试验证了 wax及 TPU 等材料包覆 AP的可行性,用扫描电子显微镜( SEM)、X 射线光电子能谱( XPS)对包覆效果进行了表征,并测试和对比了 AP包覆前后的机械感度;研究了氧化剂 AP与黑索今( RDX)间的耦合作用,探索研究了包覆 AP 在典型浇注高聚物粘结炸药( PBX)中的应用前景。结果表明,wax可完整包覆 AP,使其撞击感度由100%降至4%,摩擦感度由100%降低到24%;用wax包覆 AP时,在非水介质Novec 7200中的包覆度比在AP饱和水溶液的好,撞击感度和摩擦感度降至0,降感作用更好。氧化剂 AP与 RDX间存在相互作用,可通过包覆钝感剂的方法减小或消除彼此之间的耦合作用;将包覆降感 AP 应用于典型浇注 PBX配方(仿 AFX-757)后,其摩擦感度由82%降至0%、慢速烤燃试验的爆响温度高出17℃、爆响时间增加14 min,显著提高了配方的安全性能。
為降低高氯痠銨( AP)的感度,以石蠟( wax)、熱塑性聚氨酯( TPU)等為鈍感包覆劑對 AP 進行瞭錶麵包覆。通過接觸角、錶麵能的測試驗證瞭 wax及 TPU 等材料包覆 AP的可行性,用掃描電子顯微鏡( SEM)、X 射線光電子能譜( XPS)對包覆效果進行瞭錶徵,併測試和對比瞭 AP包覆前後的機械感度;研究瞭氧化劑 AP與黑索今( RDX)間的耦閤作用,探索研究瞭包覆 AP 在典型澆註高聚物粘結炸藥( PBX)中的應用前景。結果錶明,wax可完整包覆 AP,使其撞擊感度由100%降至4%,摩抆感度由100%降低到24%;用wax包覆 AP時,在非水介質Novec 7200中的包覆度比在AP飽和水溶液的好,撞擊感度和摩抆感度降至0,降感作用更好。氧化劑 AP與 RDX間存在相互作用,可通過包覆鈍感劑的方法減小或消除彼此之間的耦閤作用;將包覆降感 AP 應用于典型澆註 PBX配方(倣 AFX-757)後,其摩抆感度由82%降至0%、慢速烤燃試驗的爆響溫度高齣17℃、爆響時間增加14 min,顯著提高瞭配方的安全性能。
위강저고록산안( AP)적감도,이석사( wax)、열소성취안지( TPU)등위둔감포복제대 AP 진행료표면포복。통과접촉각、표면능적측시험증료 wax급 TPU 등재료포복 AP적가행성,용소묘전자현미경( SEM)、X 사선광전자능보( XPS)대포복효과진행료표정,병측시화대비료 AP포복전후적궤계감도;연구료양화제 AP여흑색금( RDX)간적우합작용,탐색연구료포복 AP 재전형요주고취물점결작약( PBX)중적응용전경。결과표명,wax가완정포복 AP,사기당격감도유100%강지4%,마찰감도유100%강저도24%;용wax포복 AP시,재비수개질Novec 7200중적포복도비재AP포화수용액적호,당격감도화마찰감도강지0,강감작용경호。양화제 AP여 RDX간존재상호작용,가통과포복둔감제적방법감소혹소제피차지간적우합작용;장포복강감 AP 응용우전형요주 PBX배방(방 AFX-757)후,기마찰감도유82%강지0%、만속고연시험적폭향온도고출17℃、폭향시간증가14 min,현저제고료배방적안전성능。
The desensitizing technology of ammonium perchlorate( AP)was studied by coated with wax or themoplastic polyure-thane( TPU)as insensitive coating desensitizer. The feasibility study of AP coated by wax and TPU were proved through surface in-teraction. The coated samples were characterized by using SEM and XPS,and the mechanical sensitivity of AP samples before and after coating was measured and compared. The coupling relations between AP and explosive RDX were studied and the applica-tion of coated AP in typical cast PBX was investigated. Results show that AP may be entirely coated by wax and TPU,and the im-pact and friction sensitivity of AP coated by wax decrease significantly from 100% to 4%,from 100% to 24%,respectively. It in-dicates that AP is coated more entirely in non-aqueous media(Novec 7200)than in saturated water solution and the coated AP is insensitive which the impact and friction sensitivity fall to 0%. There are strong coupling relations between oxidizer AP and explo-sive RDX,but it can be reduced or diminished by the desensitizer. The safety of representative cast plastic bonded explosive can be significantly improved by using coated AP instead of uncoated AP,which friction sensitivity decreases significantly from 82% to 0,and the ignition temperature and time-to-explosive in slow cook-off increase 17 ℃ and 14 min,respectively.
