摘要
利用激光小角背散射法对不相容聚合物体系聚苯乙烯/顺丁橡胶(PS/PcBR)共混过程中结构变化进行了在线分析。分散相颗粒尺寸由Debye散射理论中相关距离(αc)及平均直径(D描述)。由相关距离随组成比变化显示,在PS/PcBR共混质量比为50/50时出现相反转,即当PS含量小于50%时PS为分散相,当PS含量大于50%时PS为连续相,PS含量为50%时体系为双连续相。分散相平均直径随共混时间延长而降低,其变化过程满足颗粒粉碎理论:dt=-bD-ndD,系数n和b与共混条件、共混材料特征及共混物两相含量等有关。共混物经不同共混时间后试样由扫描电子显微镜分析结果与激光小角背散射分析结果一致。
The on line analysis on morphology has been completed for immiscible polymer blends during the processing. A trpical polymer/polymer system, polystyrene/poly(cis butadiene) rubber is used. The blends are subjected to small angle laser back scattering. The correlation distance varies with the increase of dispersed phase component, and the blends exists phase reversion at the 50/50 weight ratio of polystyrene/poly(cis butadiene) ruber. The size reduction of the dispersed phase during processing is calculated. The result indicates that the mean diameter of dispersed particles reduces with processing time, which follows the comminution theory: dt=-b -n d . The breakup coefficients n and b are used to reflect the effect of processing. It was found that the breakup coefficients depend on the processing condition, the component of dispersed phase and the property of the processing polymers. The higher the mixing speed reduces the size of dispersed phase faster, hence the breakup coeficients become less.
出处
《光散射学报》
1999年第1期54-64,共11页
The Journal of Light Scattering
基金
国家自然科学基金
