作 者:汤克勇[1] 刘捷[1] 王芳[1] 刘京龙[1] 张金[1]
机构地区:[1]郑州大学材料工程学院,郑州450052
出 处:《中国皮革》2004年第9期19-21,39,共4页China Leather
基 金:国家自然科学基金(20174037);��河南省教育厅科研基金(20014300016)资助
摘 要:初步研究了牛皮胶原纤维的热降解动力学,采用Flynn-wall-Ozawa和Satava-Sestak 2种方法处理了不同升温速率下,未鞣制皮胶原纤维、铬鞣皮胶原纤维和戊二醛鞣制皮胶原纤维的热重数据。结果表明:未经鞣制皮胶原纤维的热降解活化能为130~160kJ/mol,经铬鞣后,皮胶原纤维的热降解活化能增加至225~255kJ/mol,经戊二醛鞣制皮胶原纤维的热降解活化能与未鞣制皮胶原纤维相比变化不大,为120~163kJ/mol。The thermal degradation activation energy of cattle - hide collagen fibers is studied preliminarily. Both Flynn ?wall - Ozawa and Satava - Sestak methods are used to process the data got from TG (Thermo - gravimetric) analysis of untanned cattle- hide collagen fibers, chrome tanned cattle- hide collagen fibers, and glutaraldehyde tanned cattle- hide collagen fibers at different heating speed. The results show that the thermal degradation activation energy of untanned cattle- hide collagen fibers is 130 - 160 kJ/mol. After chrome tanning, it is increased to 225 - 255 kJ/mol. In the case of cattle - hide collagen fibers tanned with glutaraldehyde, the thermal degradation activation energy is 120 - 163 kJ/mol, which is close to that of untanned cattle- hide collagen fibers.
关 键 词:牛皮纤维 热降解动力学 活化能
分 类 号:TS51[轻工技术与工程—皮革化学与工程]
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