Numerical simulation and burning rate of B/CuO delay compositions

Yi Cheng; Yun Long Hui; Yan Chun Li; Shi Yan

doi:10.3969/j.issn.1006-9941.2010.01.017

Numerical simulation and burning rate of B/CuO delay compositions

Yi Cheng^*, Yun Long Hui, Yan Chun Li, Shi Yan

^*此作品的通讯作者

Nanjing University of Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

The law of the burning rates of B/CuO delay compositions at ambient temperature from -50°C to 70°C, and with the boron contents increasing from 8.3% to 20% were studied. Results show that when the boron content is 8.3%, the B/CuO delay compositions are misfired, and the burning rates increase with increasing of boron contents from 11% to 20%. When the boron contents are from 14% to 18%, the burning rates almost keep the same value. With the increasing of ambient temperature, the burning rate also has a little increase. Least square method was used to simulate the burning rates, and a burning rate formulation of B/CuO delay compositions was put forward.

源语言	英语
页（从-至）	68-71
页数	4
期刊	Hanneng Cailiao/Chinese Journal of Energetic Materials
卷	18
期	1
DOI	https://doi.org/10.3969/j.issn.1006-9941.2010.01.017
出版状态	已出版 - 2月 2010
已对外发布	是

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Cheng, Y., Hui, Y. L., Li, Y. C., & Yan, S. (2010). Numerical simulation and burning rate of B/CuO delay compositions. Hanneng Cailiao/Chinese Journal of Energetic Materials, 18(1), 68-71. https://doi.org/10.3969/j.issn.1006-9941.2010.01.017

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title = "Numerical simulation and burning rate of B/CuO delay compositions",

abstract = "The law of the burning rates of B/CuO delay compositions at ambient temperature from -50°C to 70°C, and with the boron contents increasing from 8.3% to 20% were studied. Results show that when the boron content is 8.3%, the B/CuO delay compositions are misfired, and the burning rates increase with increasing of boron contents from 11% to 20%. When the boron contents are from 14% to 18%, the burning rates almost keep the same value. With the increasing of ambient temperature, the burning rate also has a little increase. Least square method was used to simulate the burning rates, and a burning rate formulation of B/CuO delay compositions was put forward.",

keywords = "B/CuO delay composition, Burning rate, Delay composition, Military chemistry and technique of pyrotechnics, Numerical simulation",

author = "Yi Cheng and Hui, {Yun Long} and Li, {Yan Chun} and Shi Yan",

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doi = "10.3969/j.issn.1006-9941.2010.01.017",

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T1 - Numerical simulation and burning rate of B/CuO delay compositions

AU - Cheng, Yi

AU - Hui, Yun Long

AU - Li, Yan Chun

AU - Yan, Shi

PY - 2010/2

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N2 - The law of the burning rates of B/CuO delay compositions at ambient temperature from -50°C to 70°C, and with the boron contents increasing from 8.3% to 20% were studied. Results show that when the boron content is 8.3%, the B/CuO delay compositions are misfired, and the burning rates increase with increasing of boron contents from 11% to 20%. When the boron contents are from 14% to 18%, the burning rates almost keep the same value. With the increasing of ambient temperature, the burning rate also has a little increase. Least square method was used to simulate the burning rates, and a burning rate formulation of B/CuO delay compositions was put forward.

AB - The law of the burning rates of B/CuO delay compositions at ambient temperature from -50°C to 70°C, and with the boron contents increasing from 8.3% to 20% were studied. Results show that when the boron content is 8.3%, the B/CuO delay compositions are misfired, and the burning rates increase with increasing of boron contents from 11% to 20%. When the boron contents are from 14% to 18%, the burning rates almost keep the same value. With the increasing of ambient temperature, the burning rate also has a little increase. Least square method was used to simulate the burning rates, and a burning rate formulation of B/CuO delay compositions was put forward.

KW - B/CuO delay composition

KW - Burning rate

KW - Delay composition

KW - Military chemistry and technique of pyrotechnics

KW - Numerical simulation

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Numerical simulation and burning rate of B/CuO delay compositions

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