烯丙基醚化酚醛亚胺树脂的固化动力学研究

采用差示扫描量热仪测定了不同升温速率下烯丙基醚化酚醛亚胺树脂(APMI-F树脂)的DSC曲线,用非等温热力学的研究方法研究了APMI-F树脂的固化反应动力学。用T-β外推法确定了APMI-F树脂的固化反应的起始温度Ti、峰值温度Tp和终止温度Tf,并将其作为探究APMI-F树脂固化工艺的依据。通过Kissinger法和Starink法求得APMI-F树脂的表观活化能,由Starink法得到不同固化度下的表观活化能,并将其与试验数据对比,以验证固化动力学模型的准确性。研究结果表明:(1)利用外推法确定了APMI-F树脂固化反应的Ti、Tp和Tf分别为161.09、226.81、263.42℃;(2)Starink法求得的平均活化能要高于Kissinger法所得数据;(3)在固化反应过程中,随着固化程度的升高,APMI-F树脂的表观活化能呈现先降低后升高的趋势,固化初期活化能因黏度的降低而降低,随着交联度的提高,链段运动受到限制导致活化能渐渐升高;(4)采用Málek法成功地建立了APMI-F树脂的固化动力学模型,通过与试验数据对比,发现该模型能够很好地描述APMI-F树脂的固化过程。

新型酚醛—亚胺—环氧胶粘剂的制备与性能研究

以酚醛-酰亚胺树脂(HPMI-F树脂)和酚醛-酰胺酸树脂(HPMA-F树脂)为改性剂,端羧基丁腈橡胶为增韧剂,邻甲酚醛环氧和环氧E-51为基体树脂,再加入固化剂、促进剂和稀释剂,制备了两组新型酚醛-酰亚胺改性环氧胶粘剂(MIF-E)和酚醛-酰胺酸改性环氧胶粘剂(MAF-E)。探究了其黏度、凝胶时间、力学性能、介电性能和吸水率等。研究结果表明:MIF-E的黏度更低,拉伸剪切强度更优,施胶工艺性更好,吸水率低(最低可达1.52%),疏水性良好;MIF-E的表观活化能比MAF-E的表观活化能更高,固化反应速率更小,并且室温储存性良好;两种树脂改性环氧胶粘剂的介电性能优良,MAF-E的相对介电常数更低,1 MHz时为2.11;两种树脂改性环氧胶粘剂的介质损耗因子相近,1 MHz时均小于1.7%。制备的酚醛-亚胺-环氧胶粘剂的介电性能优良、室温储存性良好、工艺性较好、疏水性较好,对配方进一步优化后,在半导体封装材料领域有着良好的应用前景。

叠氮系负型感光剂的合成和性能研究

合成了桐油间苯二酚对马来酰亚胺苯酚酚醛树脂聚合物。这类聚合物的双叠氮交联剂组成的负型感光树脂具有高感度，高分辨率，稀碱水显影以及优良的抗蚀性能。对树脂的组成以及叠氮交联剂的选择与感光组成物的成像性能的关系进行了初步的探讨。

Bismaleimide Modified by Allyl Novolak for Superabrasives

A novel thermosetting resin system for superabrasives based on novolak and bismaleimide （BMI） was developed. The novolak resin was allylated and then copolymerized with BMI. The structure of allyl novolak and reaction mechanism were analyzed by FFIR. Thermal and mechanical properties were characterized by using com- prehensive thermal analyzer （DSC-TG） and strength tester, respectively. The results showed that high molecular weight of novolak was advantageous for heat-resistance, but was unfavorable for the bending strength. High allyl content improved the heat-resistance but lowered the bending strength. When the molecular weight of novolak was 450 and allyl content was 50%, the best resin system with good heat-resistance and bending strength was obtained. It was suitable for the manufacturing of superabrasive tools.