Sound Velocity in Shock-Compressed Samples from a Mixture of Micro- and Nanodispersed Nickel and Aluminum Powders

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Sound Velocity in Shock-Compressed Samples from a Mixture of Micro- and Nanodispersed Nickel and Aluminum Powders

机译：来自微型和纳米镍和铝粉混合物的冲击压缩样品中的声速

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Sound velocity variation behind a shock wave front is measured in pressed samples of micro- and nanodispersed mixtures of nickel and aluminum powders at pressures of 10, 30, and 60 GPa in order to verify the possibility of a reaction with the formation of nickel aluminide in a submicrosecond time range. It is shown that, in a pressure range of up to 60 GPa, the sound velocity in the samples from a nanodispersed mixture is higher than in the samples from a mi-crodispersed mixture. Moreover, upon reaching 60 GPa, the sound velocities in both mixtures with account for errors are practically equalized, which is related to melting of the samples. Based on the data obtained, it is concluded that there is no noticeable progress of the Ni + Al reaction during less than 1 mu s.

机译：在10,30和60gPa的压力下，在镍和纳米铝粉末的微型和纳米粉末的混合物的压制样品中测量了冲击波前面的声速变化，以验证与铝化镍的形成反应的可能性亚微米的时间范围。结果表明，在高达60gPa的压力范围内，来自纳米分离的混合物的样品中的声速高于来自MI克经来的混合物的样品中的速度。此外，在达到60GPa时，两种混合物中的声速与误差的误差实际上是均衡的，这与样品的熔化有关。基于所得的数据，得出结论，在小于1μs时，Ni + Al反应没有明显的进展。

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《Combustion, Explosion, and Shock Waves》 |2019年第6期|共7页
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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
reactive (energy) materials; nanomaterials; high pressure; shock-wave initiation of reactions; shock adiabat; sound velocity; detonation;

机译：反应性（能量）材料;纳米材料;高压;反应的冲击波启动;休克绝热;声速;爆炸;

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1. Sound Velocity in Shock-Compressed Samples from a Mixture of Micro- and Nanodispersed Nickel and Aluminum Powders [J] . Combustion, Explosion, and Shock Waves . 2019,第6期

机译：来自微型和纳米镍和铝粉混合物的冲击压缩样品中的声速
2. Influence of turbulent flow on the explosion parameters of micro- and nano-aluminum powder-air mixtures [J] . Liu Xueling, Zhang Qi Journal of Hazardous Materials . 2015,第DECa15期

机译：湍流对微米和纳米铝粉空气混合物爆炸参数的影响
3. Morphologic, Chemical, and Spectral Analyses of Combustion Products of Micro- and Nanodispersed Particles of Aluminum Borides [J] . Yagodnikov D. A., Guseinov Sh. L., Storozhenko P. A., Doklady Chemistry . 2019,第Pta1期

机译：铝硼化物微型和纳米玻璃颗粒燃烧产物的形态学，化学品和光谱分析
4. Effect of the nickel particle size on the high-energy milled mixtures of nickel and aluminum powders [C] . E. Kubaski, J. Capocchi, F. Farias, Materials science amp; technology 2008 conference and exhibition (MSamp;T'08): the leading forum addressing structure, properties, processing and performance across the materials community . 2008

机译：镍粒度对镍和铝粉高能研磨混合物的影响
5. Modeling shock wave propagation in discrete Nickel/Aluminum powder mixtures. [D] . Austin, Ryan A. 2010

机译：模拟离散镍/铝粉末混合物中的冲击波传播。
6. Impact of the Morphology of Micro- and Nanosized Powder Mixtures on the Microstructure of Mg-Mg2Si-CNT Composite Sinters [O] . Anita Olszówka-Myalska, Patryk Wrześniowski, Hanna Myalska, 2019

机译：微米和纳米粉末混合物的形态对Mg-Mg2Si-CNT复合烧结体微观结构的影响
7. Shock-induced reaction in a flake nickel plus spherical aluminum powder mixture [O] . Eakins, D, Thadhani, NN 2006

机译：片状镍加球形铝粉混合物中的冲击诱导反应
8. Characteristics of shock-compressed configuration of Ti and Si powder mixtures [R] . Thadhani, N. N., Dunbar, E., Graham, R. A. 1993

机译：Ti和si粉末混合物的冲击压缩构型特征

Sound Velocity in Shock-Compressed Samples from a Mixture of Micro- and Nanodispersed Nickel and Aluminum Powders

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