I.R. Bellobono, M. Zaninelli, E. Selli, B. Marcandalli
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引用次数: 1
摘要
研究了1,2-二苯基、2,2-二甲氧基、乙酮作为光引发剂在紫外光固化丙烯酸类涂料中对钢材的影响。系统地研究了用ASTM D610标准化方法测量的腐蚀速率与用36Cl标记的0.25 M NaCl溶液在25°C下测量的电解质透过涂层之间的相关性。涂层完全失效所需的时间长度,如通过腐蚀产物在整个表面上的延伸所观察到的,通过腐蚀的目视检查或渗透的穿透曲线进行评估,发现是光引发剂浓度的函数。通过这两种方法获得的失效时间之间的微小差异很可能是由于整个表面上腐蚀细胞的激活和各处可见腐蚀产物的出现之间的时间滞后。这种时间滞后可能与涂层的保护值相关,特别是与涂层的渗透性能相关。
Electrolyte permeation through photo-cured acrylic polymers on steel as related to corrosion of the substrate
The effect of 1,2-diphenyl, 2,2-dimethoxy, ethanone as photoinitiator in some ultraviolet radiation-cured acrylated acrylic formulations on steel was studied. Correlation between corrosion rates, measured with ASTM D610 standardized method, and electrolyte permeation through coatings, measured with 36Cl-labelled 0.25 M NaCl solutions at 25°C, was systematically investigated. The length of time necessary for the complete failure of the coatings, as observed by the extension of corrosion products over the entire surface, was evaluated by visual inspection of corrosion or by the breakthrough curve of permeation, and found to be a function of photoinitiator concentration. The slight difference between failure time obtained by the two methods may well be due to a time lag between the activation of corrosion cells over the whole surface and onset of visible corrosion products everywhere. This time lag may be correlated to the protective value of the coating, and to its permeation properties, particularly.
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