固体火箭技术
固體火箭技術
고체화전기술
JOURNAL OF SOLID ROCKET TECHNOLOGY
2014年
6期
829-832,837
,共5页
丁黎%王琼%王江宁%张腊莹
丁黎%王瓊%王江寧%張臘瑩
정려%왕경%왕강저%장석형
高压%热分解动力学%固含量%推进剂%烤燃试验
高壓%熱分解動力學%固含量%推進劑%烤燃試驗
고압%열분해동역학%고함량%추진제%고연시험
high pressure%thermal decomposition kinetic%solid content%propellant%cook-off test
采用非限定烤燃试验,测定了高固含量改性双基推进剂药柱的热爆炸临界温度,讨论了固含量与临界温度的关系及临界温度的尺度效应;通过高压热分解研究,获得了高固体含量推进剂热分解反应非等温动力学参数,探讨了固含量对临界温度的影响机理。结果表明,固含量由0%增加至50%,热爆炸临界温度由134.5℃上升到156.1℃,3 MPa压力下第一热分解峰温由201.8℃上升到206.2℃(β=10℃/min),表明热稳定性增加;长径比为1的GLX?4药柱临界温度与直径的对数呈线性关系。此外,随着固含量升高,热分解活化能由161.0 kJ/mol升高到181.9 kJ/mol,揭示了烤燃试验热获得的爆炸临界温度升高这一现象的高压热分解动力学理论依据。
採用非限定烤燃試驗,測定瞭高固含量改性雙基推進劑藥柱的熱爆炸臨界溫度,討論瞭固含量與臨界溫度的關繫及臨界溫度的呎度效應;通過高壓熱分解研究,穫得瞭高固體含量推進劑熱分解反應非等溫動力學參數,探討瞭固含量對臨界溫度的影響機理。結果錶明,固含量由0%增加至50%,熱爆炸臨界溫度由134.5℃上升到156.1℃,3 MPa壓力下第一熱分解峰溫由201.8℃上升到206.2℃(β=10℃/min),錶明熱穩定性增加;長徑比為1的GLX?4藥柱臨界溫度與直徑的對數呈線性關繫。此外,隨著固含量升高,熱分解活化能由161.0 kJ/mol升高到181.9 kJ/mol,揭示瞭烤燃試驗熱穫得的爆炸臨界溫度升高這一現象的高壓熱分解動力學理論依據。
채용비한정고연시험,측정료고고함량개성쌍기추진제약주적열폭작림계온도,토론료고함량여림계온도적관계급림계온도적척도효응;통과고압열분해연구,획득료고고체함량추진제열분해반응비등온동역학삼수,탐토료고함량대림계온도적영향궤리。결과표명,고함량유0%증가지50%,열폭작림계온도유134.5℃상승도156.1℃,3 MPa압력하제일열분해봉온유201.8℃상승도206.2℃(β=10℃/min),표명열은정성증가;장경비위1적GLX?4약주림계온도여직경적대수정선성관계。차외,수착고함량승고,열분해활화능유161.0 kJ/mol승고도181.9 kJ/mol,게시료고연시험열획득적폭작림계온도승고저일현상적고압열분해동역학이론의거。
The thermal explosion critical temperature of screw extrusion modified double base propellants ( GLX?propellant ) with high solid content were measured by the non finite cook?off test.The relationship between RDX content and critical temperature and the scaling effect on critical temperature of grain were discussed.The iso?thermal decomposition kinetic parameter of GLX?pro?pellant were obtainted by means of high pressure differential scanning calorimetry (PDSC).The influencing mechanism of RDX con?tent of GLX?propellant on critical temperature was analyzed. The results show that with the increase of RDX content from 0% to 50%,critical temperature increases from 134.5 ℃ to 156.1 ℃,critical temperature of GLX?4 grain whose length to diameter ratio was 1 and diameter were logarithmic relation;The thermal decomposition temperature increases from 201.8 ℃ to 206.2 ℃(β=10℃/ min)by PDSC under 3 MPa.All of that indicate the thermal stability is improved.Meanwhile,the thermal decomposition active energy increases from 161.0 kJ/mol to 181.9 kJ/mol with the increase of RDX content,which reveal theory evidence of decomposi?tion dynamics under high pressure about critical temperature increase in cook?off test.