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RISS 인기검색어
- 검색키워드
- 저자 : Mukasyan, Alexander S. (검색결과 3 건)
- 무료
- 기관 내 무료
- 유료
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Combustion Synthesis of Advanced Materials : Fundamentals and Applications
Varma, Arvind,Mukasyan, Alexander S. 한국화학공학회 2004 Korean Journal of Chemical Engineering Vol.21 No.2
The combustion synthesis(CS) of materials is an advanced approach in powder metallurgy. The number of products synthesized by CS has increased rapidly during recent years and currently exceeds 1,000 different compounds. The same features, such as high temperatures and rates, self-sustained manner of microstructure formation in non-equilibrium conditions, that make CS an attractive technology also define difficulties to study the nature and mechanism of this process, which in turn are essential to control the properties of the synthesized materials. In this survey paper, we present results of our recent work both in fundamental studies of mechanisms for rapid reaction wave propagation in heterogeneous media and in using the CS approach to synthesized different types of advanced materials, including bio-alloys and nano-sized powders.
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Combustion Synthesis of Advanced Materials: Fundamentals and Applications
Arvind Varma,Alexander S. Mukasyan 한국화학공학회 2004 Korean Journal of Chemical Engineering Vol.21 No.2
The combustion synthesis (CS) of materials is an advanced approach in powder metalurgy. The numberof products synthesized by CS has increased rapidly during recent years and currently exceeds 1,000 diferent com-pounds. The same features, such as high temperatures and rates, self-sustained manner of microstructure formationin non-equilibrium conditions, that make CS an attractive technology also define difficulties to study the nature andmechanisms of this proces, which in turn are esential to control the properties of the synthesized materials. In thissurvey paper, we present results of our recent work both in fundamental studies of mechanisms for rapid reaction wavepropagation in heterogeneous media and in using the CS approach to synthesize diferent types of advanced materials,including bio-aloys and nano-sized powders.
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Nersisyan, Hayk H.,Lee, Jong Hyeon,Ding, Jin-Rui,Kim, Kyo-Seon,Manukyan, Khachatur V.,Mukasyan, Alexander S. Elsevier 2017 Progress in energy and combustion science Vol.63 No.-
<P><B>Abstract</B></P> <P>The combustion phenomenon is characterized by rapid self-sustaining reactions, which can occur in the solid, liquid, or gas phase. Specific types of these reactions are used to produce valuable materials by different combustion synthesis (CS) routes. In this article, all three CS approaches, i.e. solid-phase, solution, and gas-phase flame, are reviewed to demonstrate their attractiveness for fabrication of zero-, one-, two-, and three-dimensional nanostructures of a large variety of inorganic compounds. The review involves five sections. First, a brief classification of combustion synthesis methods is given along with the scope of the article. Second, the state of art in the field of solid-phase combustion synthesis is described. Special attention is paid to the relationships between combustion parameters and structure/properties of the produced nanomaterials. The third and fourth sections describe details for controlling material structures through solution combustion synthesis and gas-phase flame synthesis, respectively. A variety of properties (e.g., thermal, electronic, electrochemical, and catalytic) associated with different types of CS nanoscale materials are discussed. The conclusion focuses on the most promising directions for future research in the field of advanced nanomaterial combustion synthesis.</P>
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