含能材料
含能材料
함능재료
ENERGETIC MATERIALS
2013年
6期
771-776
,共6页
陈春燕%王晓峰%高立龙%郑亚峰
陳春燕%王曉峰%高立龍%鄭亞峰
진춘연%왕효봉%고립룡%정아봉
高分子化学%端羟基聚丁二烯(HTPB)%非等温DSC%固化反应%动力学
高分子化學%耑羥基聚丁二烯(HTPB)%非等溫DSC%固化反應%動力學
고분자화학%단간기취정이희(HTPB)%비등온DSC%고화반응%동역학
polymer chemistry%hydroxyl-terminated polybutadiene ( HTPB)%non-isothermal differential scanning calorimetry%curing reaction%curing kinetics
测定了浇注高聚物粘结炸药(PBX)粘结剂固化反应的放热量,探讨了端羟基聚丁二烯(HTPB)分子量对固化反应速率的影响。采用非等温差示扫描量热法(DSC)研究了分子量分别为1500(M1)和2800(M2)的HTPB与2,4-甲苯二异氰酸酯(TDI)固化反应的动力学。结果表明,M1固化体系比M2固化体系的粘度增长迅速,固化放热量大。 M1体系固化反应表观活化能约为55.87 kJ? mol-1,反应级数为0.88,指前因子为4.70×104 s-1;M2体系的固化峰温升高,表观活化能、反应级数和指前因子分别提高至60.77 kJ? mol-1、0.89、1.07×105 s-1,M1与M2体系反应机理函数仍遵循n级反应模型f(α)=(1-α) n ,方程中的指数n有所变化。
測定瞭澆註高聚物粘結炸藥(PBX)粘結劑固化反應的放熱量,探討瞭耑羥基聚丁二烯(HTPB)分子量對固化反應速率的影響。採用非等溫差示掃描量熱法(DSC)研究瞭分子量分彆為1500(M1)和2800(M2)的HTPB與2,4-甲苯二異氰痠酯(TDI)固化反應的動力學。結果錶明,M1固化體繫比M2固化體繫的粘度增長迅速,固化放熱量大。 M1體繫固化反應錶觀活化能約為55.87 kJ? mol-1,反應級數為0.88,指前因子為4.70×104 s-1;M2體繫的固化峰溫升高,錶觀活化能、反應級數和指前因子分彆提高至60.77 kJ? mol-1、0.89、1.07×105 s-1,M1與M2體繫反應機理函數仍遵循n級反應模型f(α)=(1-α) n ,方程中的指數n有所變化。
측정료요주고취물점결작약(PBX)점결제고화반응적방열량,탐토료단간기취정이희(HTPB)분자량대고화반응속솔적영향。채용비등온차시소묘량열법(DSC)연구료분자량분별위1500(M1)화2800(M2)적HTPB여2,4-갑분이이청산지(TDI)고화반응적동역학。결과표명,M1고화체계비M2고화체계적점도증장신속,고화방열량대。 M1체계고화반응표관활화능약위55.87 kJ? mol-1,반응급수위0.88,지전인자위4.70×104 s-1;M2체계적고화봉온승고,표관활화능、반응급수화지전인자분별제고지60.77 kJ? mol-1、0.89、1.07×105 s-1,M1여M2체계반응궤리함수잉준순n급반응모형f(α)=(1-α) n ,방정중적지수n유소변화。
Curing processes of hydroxyl-terminated polybutadiene ( HTPB ) with different molecular weight ( M1:1500;M2:2800)/2,4-toluene diisocyanate (TDI) systems were studied by rotational viscometer and non-isothermal differential scan-ning calorimetry(DSC), and effect of molecular weight on curing reation kinetic of system was investigated.Results show that the viscosity of M1 system increases faster than that of M2 system, and the curing reaction heat of M1 systems is greater than that of M2 system.The values of apparent activation energy, reaction order and pre-exponential factor of M1 system are 55.87 kJ? mol-1 , 0.88, 4.70 ×104 s-1 , respectively.While for M2 system,the peak temperature of the curing process increases and the values of apparent activation energy,reaction order and pre-exponential factor increase to 60.77 kJ? mol-1 , 0.89, 1.07 ×105 s-1 , respec-tively.The curing reaction mechanism of two curing system follows f(α)=(1-α) n and index n of M1 system curing reaction is only slightly different from that of M2 system.