Effect of MnO<sub>2</sub> morphology on the thermal properties and combustion behavior of nano-Al/MnO<sub>2</sub> thermite

Liu, Xiaofeng; Liu, Jun; Zhao, Futian; Xiao, Zhao

doi:10.1088/2053-1591/ac7a96

Cited by 2 publications

(1 citation statement)

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“…In this paper, the ignition and energy release performance of the dual-oxidant Al/MnO 2 /CuO (AMC) ternary thermites are systematically investigated. The Al/ MnO 2 (AM) is chosen for its high adiabatic reaction temperatures [9] and high heat of reaction [15], while the Al/CuO (AC) generally leads to a high gas production performance and burning rates [16]. By varying the content of the Al/CuO from 10 % to 50 %, the heat of reaction, the self-sustained combustion performance, the pressure performance, and ignition delay time of the AMC thermites, in addition to the AM and AC, are studied.…”

Section: Introductionmentioning

confidence: 99%

Ignition and energy release performance of dual‐oxidant Al/MnO₂/CuO ternary thermites under rapid heating conditions

Liu,

He,

Zhuang

et al. 2024

Propellants Explo Pyrotec

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Tailoring the energy release performance of the thermites is crucial for their application in various fields. In this article, dual‐oxidant Al/MnO2/CuO ternary thermites with varying compositions were prepared and systematically evaluated. The ignition delay time, heat of reaction, self‐sustained burning rate, and pressure performance of the thermites were evaluated. As the Al/CuO content increased, the ignition delay time and heat of reaction decreased, while the reaction efficiency, burning rate, pressure peak, and pressurization rate increased. Furthermore, the synergistic addition of the MnO2 and CuO led to enhanced relative flame intensity and maximum flame temperature in the ternary thermite. Our work demonstrates an effective strategy for regulating the energy performance of the thermites by co‐adding of metal oxides. This approach opens avenues for tailoring thermite properties to meet the diverse requirements of various applications.

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Section: Introductionmentioning

confidence: 99%

Ignition and energy release performance of dual‐oxidant Al/MnO₂/CuO ternary thermites under rapid heating conditions

Liu,

He,

Zhuang

et al. 2024

Propellants Explo Pyrotec

View full text Add to dashboard Cite

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Role of graphene on thermal properties of Al/MnO2 nano-thermite system

Roy,

Sharma

2024

Bull Mater Sci

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Effect of MnO₂ morphology on the thermal properties and combustion behavior of nano-Al/MnO₂ thermite

Cited by 2 publications

References 24 publications

Ignition and energy release performance of dual‐oxidant Al/MnO₂/CuO ternary thermites under rapid heating conditions

Ignition and energy release performance of dual‐oxidant Al/MnO₂/CuO ternary thermites under rapid heating conditions

Role of graphene on thermal properties of Al/MnO2 nano-thermite system

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Effect of MnO2 morphology on the thermal properties and combustion behavior of nano-Al/MnO2 thermite

Cited by 2 publications

References 24 publications

Ignition and energy release performance of dual‐oxidant Al/MnO2/CuO ternary thermites under rapid heating conditions

Ignition and energy release performance of dual‐oxidant Al/MnO2/CuO ternary thermites under rapid heating conditions

Role of graphene on thermal properties of Al/MnO2 nano-thermite system

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Effect of MnO₂ morphology on the thermal properties and combustion behavior of nano-Al/MnO₂ thermite

Ignition and energy release performance of dual‐oxidant Al/MnO₂/CuO ternary thermites under rapid heating conditions

Ignition and energy release performance of dual‐oxidant Al/MnO₂/CuO ternary thermites under rapid heating conditions