Aluminum/HMX nanocomposites: Synthesis, microstructure, and combustion

Zhigach A. N.; Leipunskii I. O.; Pivkina A. N.; Muravyev N. V.; Monogarov K. A.; Kuskov M. L.; Afanasenkova E. S.; Berezkina N. G.; Pshechenkov P. A.; Bragin A. A.

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Aluminum/HMX nanocomposites: Synthesis, microstructure, and combustion

机译：铝/ HMX纳米复合材料：合成，微观结构和燃烧

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Aluminum particles with a diameter of a parts per thousand 50 nm were synthesized by means of the Gen-Miller flow-levitation method with alumina or trimethylsiloxane coatings formed on the surface of these particles. Aluminum/HMX nanocomposites manufactured by suspension atomization drying or dry mechanical mixing were investigated by x-ray diffraction analysis, scanning electron microscopy, and local x-ray analysis. The combustion of these mixtures with changing particle size of the components and composition of the coating on the metal particles was studied. It was found that, when the composites produced by atomization drying were stored as loose powder, HMX crystals grew, which increased the burning rate of compressed samples from 19 to 55 mm/s in the pressure range 3-10 MPa, and the pressure exponent varied from 0.34 to 0.84, depending on how the burning rate correlates with the pressure.

机译：借助于Gen-Miller流动悬浮法，通过在这些颗粒的表面上形成氧化铝或三甲基硅氧烷涂层，合成了直径为千分之50nm的铝颗粒。通过X射线衍射分析，扫描电子显微镜和局部X射线分析研究了通过悬浮雾化干燥或干式机械混合制造的铝/ HMX纳米复合材料。对这些混合物的燃烧进行了研究，研究了组分颗粒尺寸和金属颗粒上涂层组成的变化。发现通过雾化干燥生产的复合材料以松散粉末形式存储时，HMX晶体生长，在3-10 MPa的压力范围内，压缩样品的燃烧速率从19 mm / s增加到55 mm / s，并且压力指数从0.34到0.84不等，取决于燃烧速率与压力的关系。

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《Combustion, Explosion, and Shock Waves》 |2015年第1期|共7页
作者
Zhigach A. N.; Leipunskii I. O.; Pivkina A. N.; Muravyev N. V.; Monogarov K. A.; Kuskov M. L.; Afanasenkova E. S.; Berezkina N. G.; Pshechenkov P. A.; Bragin A. A.;
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正文语种 eng
中图分类爆炸物工业、火柴工业;
关键词
nanoaluminum; flow-levitation method; barrier coating; atomization drying; combustion; ultrafine HMX;

机译：纳米铝;悬浮法;阻隔涂层;雾化干燥;燃烧;超细HMX;

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1. Aluminum/HMX nanocomposites: Synthesis, microstructure, and combustion [J] . Zhigach A. N., Leipunskii I. O., Pivkina A. N., Combustion, Explosion, and Shock Waves . 2015,第1期

机译：铝/ HMX纳米复合材料：合成，微观结构和燃烧
2. Novel combustion synthesis of carbon foam aluminum fluoride nanocomposite materials [J] . Kostoglou Nikolaos, Gunduz I. Emre, Isik Tugba, Materials & design . 2018,第APRa期

机译：碳泡沫铝氟化物纳米复合材料的新型燃烧合成
3. Mechanical activation-assisted combustion synthesis of in situ aluminum matrix hybrid (TiC/Al2O3) nanocomposite [J] . Mehrizi M. Zarezadeh, Beygi R., Mostaan H., CERAMICS INTERNATIONAL . 2016,第15期

机译：机械活化辅助燃烧合成原位铝基杂化体（TiC / Al2O3）纳米复合材料
4. COMBUSTION OF ENERGETIC SYSTEMS BASED ON HMX AND ALUMINUM: INFLUENCE OF PARTICLE SIZE AND MIXING TECHNOLOGY [C] . Nikita Muravyev, Yurii Frolov, Alla Pivkina, Seminar on new trends in research of energetic materials;NTREM '09 . 2009

机译：基于HMX和铝的能量系统的燃烧：颗粒尺寸和混合技术的影响
5. Enhancing the Combustion Characteristics of Energetic Nanocomposites Through Controlled Microstructures [D] . Jacob, Rohit Jiji 2018

机译：通过受控的微结构增强含能纳米复合材料的燃烧特性
6. Synthesis Characterization of Chitosan-Aluminum Oxide Nanocomposite for Green Synthesis of Annulated Imidazopyrazol Thione Derivatives [O] . Abir S. Abdel-Naby, Sara Nabil, Sarah Aldulaijan, 2021

机译：结合亚咪唑硫代唑酮衍生物绿色合成壳聚糖 - 氧化铝纳米复合材料的合成表征
7. Novel combustion synthesis of carbon foam‑aluminum fluoride nanocomposite materials [O] . Nikolaos Kostoglou, I. Emre Gunduz, Tugba Isik, 2018

机译：碳泡沫铝氟化物纳米复合材料的新型燃烧合成
8. Combustion Synthesis of Metallic Foams from Nanocomposite Reactants [R] . Hunt, E. M., Pantoya, M. L., Jouet, R. J. 2006

机译：纳米复合反应物燃烧合成金属泡沫

Aluminum/HMX nanocomposites: Synthesis, microstructure, and combustion

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