Improved pressure discharge property of surface modified Al/Bi2O3 composites

Yajun Wang; Haiyang Yu; Zisheng Jiang; Liang Guo

doi:10.1134/S1070427217080237

Improved pressure discharge property of surface modified Al/Bi₂O₃ composites

Yajun Wang^*, Haiyang Yu, Zisheng Jiang, Liang Guo

^*此作品的通讯作者

机电学院

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

Al/Bi₂O₃ nanothermites were prepared via a self-assembly method using poly-4-vinylpyridine and surface modification of particles by a kind of binder oleic acid respectively. The structures, morphology, and energetic properties were characterized. The pressure discharge properties were studied by a closed bomb. The peak pressures and pressurization rates of Al/Bi₂O₃/P4VP and Al/Bi₂O₃/OA were 5590 kPa, 13.976 GPa s^–1 and 4858 kPa, 12.146 GPa s^–1, respectively, better than those of Al/Bi₂O₃ prepared by normal ultrasonic method (4559 kPa, 11.397 GPa s^–1). However, the decreased ignition delay time for self-assembled method and the increased one for modifying with oleic acid suggested different mechanism in accelerating the reaction of Al/Bi₂O₃. Moreover, the effect of mass fraction of oleic acid on nanothermite reaction was demonstrated.

源语言	英语
页（从-至）	1330-1336
页数	7
期刊	Russian Journal of Applied Chemistry
卷	90
期	8
DOI	https://doi.org/10.1134/S1070427217080237
出版状态	已出版 - 1 8月 2017

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abstract = "Al/Bi2O3 nanothermites were prepared via a self-assembly method using poly-4-vinylpyridine and surface modification of particles by a kind of binder oleic acid respectively. The structures, morphology, and energetic properties were characterized. The pressure discharge properties were studied by a closed bomb. The peak pressures and pressurization rates of Al/Bi2O3/P4VP and Al/Bi2O3/OA were 5590 kPa, 13.976 GPa s–1 and 4858 kPa, 12.146 GPa s–1, respectively, better than those of Al/Bi2O3 prepared by normal ultrasonic method (4559 kPa, 11.397 GPa s–1). However, the decreased ignition delay time for self-assembled method and the increased one for modifying with oleic acid suggested different mechanism in accelerating the reaction of Al/Bi2O3. Moreover, the effect of mass fraction of oleic acid on nanothermite reaction was demonstrated.",

author = "Yajun Wang and Haiyang Yu and Zisheng Jiang and Liang Guo",

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AU - Wang, Yajun

AU - Yu, Haiyang

AU - Jiang, Zisheng

AU - Guo, Liang

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N2 - Al/Bi2O3 nanothermites were prepared via a self-assembly method using poly-4-vinylpyridine and surface modification of particles by a kind of binder oleic acid respectively. The structures, morphology, and energetic properties were characterized. The pressure discharge properties were studied by a closed bomb. The peak pressures and pressurization rates of Al/Bi2O3/P4VP and Al/Bi2O3/OA were 5590 kPa, 13.976 GPa s–1 and 4858 kPa, 12.146 GPa s–1, respectively, better than those of Al/Bi2O3 prepared by normal ultrasonic method (4559 kPa, 11.397 GPa s–1). However, the decreased ignition delay time for self-assembled method and the increased one for modifying with oleic acid suggested different mechanism in accelerating the reaction of Al/Bi2O3. Moreover, the effect of mass fraction of oleic acid on nanothermite reaction was demonstrated.

AB - Al/Bi2O3 nanothermites were prepared via a self-assembly method using poly-4-vinylpyridine and surface modification of particles by a kind of binder oleic acid respectively. The structures, morphology, and energetic properties were characterized. The pressure discharge properties were studied by a closed bomb. The peak pressures and pressurization rates of Al/Bi2O3/P4VP and Al/Bi2O3/OA were 5590 kPa, 13.976 GPa s–1 and 4858 kPa, 12.146 GPa s–1, respectively, better than those of Al/Bi2O3 prepared by normal ultrasonic method (4559 kPa, 11.397 GPa s–1). However, the decreased ignition delay time for self-assembled method and the increased one for modifying with oleic acid suggested different mechanism in accelerating the reaction of Al/Bi2O3. Moreover, the effect of mass fraction of oleic acid on nanothermite reaction was demonstrated.

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Improved pressure discharge property of surface modified Al/Bi2O3 composites

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Improved pressure discharge property of surface modified Al/Bi₂O₃ composites