Studies on Rheological Properties of Gelled Propellant Based on New Energetic Cellulose

doi:10.6023/A1109253

Acta Chimica Sinica ›› 2012, Vol. 70 ›› Issue (02): 200-206.DOI: 10.6023/A1109253 Previous Articles Next Articles

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新型含能纤维素基凝胶推进剂的流变性能研究

吕少一, 邵自强, 张振玲, 王慧庆, 王文俊

北京理工大学材料科学与工程学院北京 100081

投稿日期:2011-09-25 修回日期:2011-11-30 发布日期:2012-02-25
通讯作者: 邵自强 E-mail:shaoziqiang@263.net
基金资助:
燃烧与爆炸国防科技重点实验室基金(No.9140C3503011004)资助项目.

Studies on Rheological Properties of Gelled Propellant Based on New Energetic Cellulose

Lü Shaoyi, Shao Ziqiang, Zhang Zhenling, Wang Huiqing, Wang Wenjun

School of Materias Science and Engineering, Beijing Institute of Technology, Beijing 100081

Received:2011-09-25 Revised:2011-11-30 Published:2012-02-25
Supported by:
Project supported by Combustion and Explosion National Defense Key Laboratory Fund (Grant No.9140C3503011004).

The nitromethane (NM) gels was prepared with carboxymethyl cellulose nitrate (CMCN) as a gelator. The law of different rheological properties of NM/CMCN gels caused by the proportional change of modified group on CMCN was investigated. The yield stress, thixotropy, creep and thermosensitivity of NM/CMCN gels were investigated by linear rheological methods and the gel mechanism was discussed. The flow data, creep data, angular frequency data and thermosensitivity data of gels were fitted by Herschel-Bulkley model, Burger model, Carreau-Yasuda model and Andrade-Eyring model respectively. The experimental results show that NM/CMCN gel is a physical gel with a crosslinking network structure which is formed by non-covalent interaction of hydrophobic bonds and interchain hydrogen bonds between amphiphilic group along the macromolecular chain of CMCN and small organic molecules. The non-Newton coefficient n of CMCN gels are all less than 0.60. With the decrease of the content of nitrate group, structure strength of NM/CMCN gels become weaker, therefore, the yield stress decrease while thixotropy recovery increase gradually, the viscous compliance and elastic compliance of gel decrease while the proportion of viscous compliance increase. The elastic responsivity decreases while viscous responsivity increase, and the internal friction increases gradually. The activation energy of NM/CMCN gels increase from the global aspect and temperature stability become weaker with the decrease of the content of nitrate group.

Key words: energetic gelator, carboxymethyl cellulose nitrate, nitromethane, rheological property, gelled propellant

Cite this article

Lü Shaoyi, Shao Ziqiang, Zhang Zhenling, Wang Huiqing, Wang Wenjun. Studies on Rheological Properties of Gelled Propellant Based on New Energetic Cellulose[J]. Acta Chimica Sinica, 2012, 70(02): 200-206.

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新型含能纤维素基凝胶推进剂的流变性能研究

Studies on Rheological Properties of Gelled Propellant Based on New Energetic Cellulose

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