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Fizika Goreniya i Vzryva, 2008, Volume 44, Issue 6, Pages 114–126 (Mi fgv1453)  
This article is cited in 18 scientific papers (total in 18 papers)

Explosive compaction and low-temperature sintering of alumina nanopowders

A. A. Bukaemskiia, E. N. Fedorovab

a Institute for Energy Research, Safety Research and Reactor Technology, Forschungszentrum Jülich GmbH, D-52425 Jülich, Germany
b Polytechnical Institute, Siberian Federal University, Krasnoyarsk, 660074, Russia
Citations (18)
Abstract: Physical aspects of explosive compaction of alumina nanopowders with different phase compositions are studied experimentally. Physical processes that occur during consolidation of nanoparticles under pulsed loading are considered. Conditions of retaining of the material nanostructure after compaction and subsequent low-temperature sintering are determined. Physicomechanical properties of explosive compacts and ceramics on the basis of these compacts are studied. A ceramic material characterized by a nanostructure (grain size of $\approx$200 nm) and high values of density (97% of the theoretical value) and microhardness (up to 23.5 GPa) is obtained.
Keywords: взрывное компактирование, оксид алюминия, нанопорошок, метастабильность, низкотемпературное спекание, нанокомпозит, микротвердость.
Received: 01.04.2005
Accepted: 03.04.2008
English version:
Combustion, Explosion and Shock Waves, 2008, Volume 44, Issue 6, Pages 717–728
DOI: https://doi.org/10.1007/s10573-008-0108-8
Bibliographic databases:
Document Type: Article
UDC: 621.762.21+539.89+538.91
Language: Russian
Citation: A. A. Bukaemskii, E. N. Fedorova, “Explosive compaction and low-temperature sintering of alumina nanopowders”, Fizika Goreniya i Vzryva, 44:6 (2008), 114–126; Combustion, Explosion and Shock Waves, 44:6 (2008), 717–728
Citation in format AMSBIB
\Bibitem{BukFed08}
\by A.~A.~Bukaemskii, E.~N.~Fedorova
\paper Explosive compaction and low-temperature sintering of alumina nanopowders
\jour Fizika Goreniya i Vzryva
\yr 2008
\vol 44
\issue 6
\pages 114--126
\mathnet{http://mi.mathnet.ru/fgv1453}
\elib{https://elibrary.ru/item.asp?id=11846400}
\transl
\jour Combustion, Explosion and Shock Waves
\yr 2008
\vol 44
\issue 6
\pages 717--728
\crossref{https://doi.org/10.1007/s10573-008-0108-8}
Linking options:
  • https://www.mathnet.ru/eng/fgv1453
  • https://www.mathnet.ru/eng/fgv/v44/i6/p114
    • This publication is cited in the following 18 articles:
    1. Y. Yoshiichi, S. Shimono, H. Kishimura, “Fabrication of Bulk Al-Ti-V-Cr-Si Low-Density High-Entropy Alloy Solid Solution by Shock Solidification”, J. dynamic behavior mater., 2024  crossref
    2. M.Y. Wang, D.B. He, W.B. Bi, M. Shang, Y. Cai, L. Deng, X.M. Zhang, F. Zhao, J.F. Tang, L. Wang, “Shock consolidation and spallation in nanopowdered Mg: Contributed by deformation twinning and disordering”, Journal of Materials Science & Technology, 2024  crossref
    3. Jing Zhang, Zhuowei Guo, Shengjun Sang, Chenchen Li, Bin Li, Dan Zhang, Lifeng Xie, “Preparation of bulk nano-aluminum materials from nanopowder using explosive consolidation”, Journal of Applied Physics, 131:16 (2022)  crossref
    4. A D Sharma, A K Sharma, N Thakur, “Influence of high detonation pressure on the structural, microstructural and mechanical behaviour of IN718 superalloy: numeric simulation vis-à-vis experimental explosive shock processing”, Bull Mater Sci, 45:2 (2022)  crossref
    5. Qiang Zhou, Qiwen Hu, Bi Wang, Bingbing Zhou, Pengwan Chen, Rui Liu, “Fabrication and characterization of the Ni–Al energetic structural material with high energy density and mechanical properties”, Journal of Alloys and Compounds, 832 (2020), 154894  crossref
    6. A. V. Belyakov, “High-density Micro- and Nano-Grain Size Ceramics. Transition from Open into Closed Pores. Part 1. Powder Preparation, Molding Mixture, Molding”, Refract Ind Ceram, 60:6 (2020), 574  crossref
    7. A. V. Belyakov, “High-density micro- and nanogranular ceramics. Transition of open pores to closed ones. Part 1. Preparation of powder, molding material, molding”, Nov. ogneup., 2020, no. 11, 49  crossref
    8. Jianrui Feng, Jing Xie, Mingjian Zhang, Xiaowen Liu, Qiang Zhou, Rongjie Yang, Pengwan Chen, “Shock-induced consolidation of tungsten nanoparticles—A molecular dynamics approach”, Journal of Applied Physics, 127:2 (2020)  crossref
    9. Bingfeng Wang, Fangyu Xie, Zhicheng Li, Hong Zhang, “Explosive compaction of Al2O3 nanopowders”, Ceramics International, 42:7 (2016), 8460  crossref
    10. A. D. Sharma, A. K. Sharma, N. Thakur, “Crystallographic, Microstructural, and Mechanical Characterization of Dynamically Processed EP741NP Superalloy”, Metall Mater Trans B, 47:4 (2016), 2479  crossref
    11. Qiang Zhou, Pengwan Chen, “Characterization of fine-grained W–10wt.”, International Journal of Refractory Metals and Hard Materials, 52 (2015), 137  crossref
    12. A.D. Sharma, A.K. Sharma, N. Thakur, “Crystallographic, microstructure and mechanical characteristics of dynamically processed IN718 superalloy”, Journal of Alloys and Compounds, 597 (2014), 175  crossref
    13. Qiang Zhou, Pengwan Chen, “Fabrication and characterization of pure tungsten using the hot-shock consolidation”, International Journal of Refractory Metals and Hard Materials, 42 (2014), 215  crossref
    14. Ekaterina A. Nosova, Antonina A. Kuzina, Anna V. Kuts, “Development of the Process of Pseudo-Ligatures Manufacturing from Aluminum and Nickel Powders for the Modification of Alloys”, AMM, 698 (2014), 452  crossref
    15. A. D. Sharma, A. K. Sharma, N. Thakur, “Effect of explosive contact and non-contact shock-processing on structure, microstructure and mechanical characteristics of aluminum”, Appl. Phys. A, 111:3 (2013), 783  crossref
    16. A. R. Farinha, R. Mendes, M. T. Vieira, “Production of Sintered α-Alumina by Explosive Compaction from Low Temperature Calcinated Aluminum-Rich Sludge”, Waste Biomass Valor, 4:3 (2013), 627  crossref
    17. Akash Deep Sharma, A.K. Sharma, Nagesh Thakur, “Crystallographic and morphological characteristics of explosively compacted copper under various detonation velocities”, Philosophical Magazine, 92:16 (2012), 2108  crossref
    18. Doo-Man Chun, Sung-Hoon Ahn, “Deposition mechanism of dry sprayed ceramic particles at room temperature using a nano-particle deposition system”, Acta Materialia, 59:7 (2011), 2693  crossref
    Citing articles in Google Scholar: Russian citations, English citations
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