Enhanced the combustion performance of DAP-4 with assembled Cu2O nanoclusters

Yiming Wang; Jinqiang Zhou; Peng Deng; Xueyong Guo; Pengwan Chen; Rui Liu

doi:10.1016/j.vacuum.2022.111718

Enhanced the combustion performance of DAP-4 with assembled Cu₂O nanoclusters

Yiming Wang, Jinqiang Zhou, Peng Deng, Xueyong Guo, Pengwan Chen, Rui Liu^*

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

In this work, the catalytic combustion performance of molecular perovskite energetic material DAP-4 with assembled Cu₂O nanoclusters added was studied. Results showed that aggregated spherical Cu₂O clusters with the size of ∼1 μm were assembled by nano particles with ∼50 nm diameter by the high-temperature reduction method. Assembled Cu₂O nanoclusters have intrinsic catalysis combustion characteristics on DAP-4. With 5 wt% Cu₂O added, the combustion time of DAP-4 had reduced by ∼70 ms from raw DAP-4 (∼90 ms) to DAP-4/Cu₂O (20 ms). The combustion pressurization rate of DAP-4/Cu₂O is ∼4 times of DAP-4. The catalysis combustion mechanism of DAP-4 with assembled Cu₂O nanoclusters as an additive was proposed. The work offered a new idea to utilize novel catalysts for enhancing the combustion performance of DAP-4.

Original language	English
Article number	111718
Journal	Vacuum
Volume	208
DOIs	https://doi.org/10.1016/j.vacuum.2022.111718
Publication status	Published - Feb 2023

Keywords

Combustion
Combustion pressure
CuO nanoclusters
DAP-4
Reaction mechanism

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10.1016/j.vacuum.2022.111718

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title = "Enhanced the combustion performance of DAP-4 with assembled Cu2O nanoclusters",

abstract = "In this work, the catalytic combustion performance of molecular perovskite energetic material DAP-4 with assembled Cu2O nanoclusters added was studied. Results showed that aggregated spherical Cu2O clusters with the size of ∼1 μm were assembled by nano particles with ∼50 nm diameter by the high-temperature reduction method. Assembled Cu2O nanoclusters have intrinsic catalysis combustion characteristics on DAP-4. With 5 wt% Cu2O added, the combustion time of DAP-4 had reduced by ∼70 ms from raw DAP-4 (∼90 ms) to DAP-4/Cu2O (20 ms). The combustion pressurization rate of DAP-4/Cu2O is ∼4 times of DAP-4. The catalysis combustion mechanism of DAP-4 with assembled Cu2O nanoclusters as an additive was proposed. The work offered a new idea to utilize novel catalysts for enhancing the combustion performance of DAP-4.",

keywords = "Combustion, Combustion pressure, CuO nanoclusters, DAP-4, Reaction mechanism",

author = "Yiming Wang and Jinqiang Zhou and Peng Deng and Xueyong Guo and Pengwan Chen and Rui Liu",

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doi = "10.1016/j.vacuum.2022.111718",

language = "English",

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journal = "Vacuum",

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T1 - Enhanced the combustion performance of DAP-4 with assembled Cu2O nanoclusters

AU - Wang, Yiming

AU - Zhou, Jinqiang

AU - Deng, Peng

AU - Guo, Xueyong

AU - Chen, Pengwan

AU - Liu, Rui

PY - 2023/2

Y1 - 2023/2

N2 - In this work, the catalytic combustion performance of molecular perovskite energetic material DAP-4 with assembled Cu2O nanoclusters added was studied. Results showed that aggregated spherical Cu2O clusters with the size of ∼1 μm were assembled by nano particles with ∼50 nm diameter by the high-temperature reduction method. Assembled Cu2O nanoclusters have intrinsic catalysis combustion characteristics on DAP-4. With 5 wt% Cu2O added, the combustion time of DAP-4 had reduced by ∼70 ms from raw DAP-4 (∼90 ms) to DAP-4/Cu2O (20 ms). The combustion pressurization rate of DAP-4/Cu2O is ∼4 times of DAP-4. The catalysis combustion mechanism of DAP-4 with assembled Cu2O nanoclusters as an additive was proposed. The work offered a new idea to utilize novel catalysts for enhancing the combustion performance of DAP-4.

AB - In this work, the catalytic combustion performance of molecular perovskite energetic material DAP-4 with assembled Cu2O nanoclusters added was studied. Results showed that aggregated spherical Cu2O clusters with the size of ∼1 μm were assembled by nano particles with ∼50 nm diameter by the high-temperature reduction method. Assembled Cu2O nanoclusters have intrinsic catalysis combustion characteristics on DAP-4. With 5 wt% Cu2O added, the combustion time of DAP-4 had reduced by ∼70 ms from raw DAP-4 (∼90 ms) to DAP-4/Cu2O (20 ms). The combustion pressurization rate of DAP-4/Cu2O is ∼4 times of DAP-4. The catalysis combustion mechanism of DAP-4 with assembled Cu2O nanoclusters as an additive was proposed. The work offered a new idea to utilize novel catalysts for enhancing the combustion performance of DAP-4.

KW - Combustion

KW - Combustion pressure

KW - CuO nanoclusters

KW - DAP-4

KW - Reaction mechanism

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VL - 208

JO - Vacuum

JF - Vacuum

M1 - 111718

ER -

Enhanced the combustion performance of DAP-4 with assembled Cu₂O nanoclusters

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Keywords

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