玻璃钢/复合材料
玻璃鋼/複閤材料
파리강/복합재료
FIBER REINFORCED PLASTICS/COMPOSITES
2009年
4期
49-52
,共4页
张英强%徐耀民%郑康生%姚春燕%郭旖旎%吴维新
張英彊%徐耀民%鄭康生%姚春燕%郭旖旎%吳維新
장영강%서요민%정강생%요춘연%곽의니%오유신
化学流变%苯并环丁烯%聚酰亚胺%固化反应%数学模型
化學流變%苯併環丁烯%聚酰亞胺%固化反應%數學模型
화학류변%분병배정희%취선아알%고화반응%수학모형
chemorheology%benzocyclobutene%polimide%curing reaction%mathematical modal
用旋转流变仪研究了苯并环丁烯封端的聚酰亚胺树脂体系固化过程中的化学流变行为,用动态和静态两种方法分析了其固化过程,发现存在三个固化阶段,用Arrhenius方程确定了固化前的表观物理粘流活化能为195.9kJ/mol.并用Roller法确定固化反应过程中表现化学粘流活化能和表现固化反应活化能,分别为148.2kJ/mol和161.2kJ/mol.结果表明,在整个固化成型工艺温度范围内,苯并环丁烯封端的聚酰亚胺树脂的粘度特性符合Roller模型方程,通过该模型可较好地预测该树脂在固化过程中的粘度特性.
用鏇轉流變儀研究瞭苯併環丁烯封耑的聚酰亞胺樹脂體繫固化過程中的化學流變行為,用動態和靜態兩種方法分析瞭其固化過程,髮現存在三箇固化階段,用Arrhenius方程確定瞭固化前的錶觀物理粘流活化能為195.9kJ/mol.併用Roller法確定固化反應過程中錶現化學粘流活化能和錶現固化反應活化能,分彆為148.2kJ/mol和161.2kJ/mol.結果錶明,在整箇固化成型工藝溫度範圍內,苯併環丁烯封耑的聚酰亞胺樹脂的粘度特性符閤Roller模型方程,通過該模型可較好地預測該樹脂在固化過程中的粘度特性.
용선전류변의연구료분병배정희봉단적취선아알수지체계고화과정중적화학류변행위,용동태화정태량충방법분석료기고화과정,발현존재삼개고화계단,용Arrhenius방정학정료고화전적표관물리점류활화능위195.9kJ/mol.병용Roller법학정고화반응과정중표현화학점류활화능화표현고화반응활화능,분별위148.2kJ/mol화161.2kJ/mol.결과표명,재정개고화성형공예온도범위내,분병배정희봉단적취선아알수지적점도특성부합Roller모형방정,통과해모형가교호지예측해수지재고화과정중적점도특성.
The chemorheology behaviors of curing reaction of benzocyclobutene-terrninatod imide were studied with rheometer. The curing process was investigated by dynamic heating and isothermal methods, and three curing stages were found. Apparent physical activation energy of flow calculated by Arrhenius equation was 195.9kJ/mol. Apparent chemical activation energy of flow and apparent curing reaction activation energy were calculated by Roller equation, respectively. The results show that the viscosity characteristic of resin follows the Roller equation very well, and viscosity characteristic of resin can be predicted by the Roller equation in the whole curing process.
