2012
DOI: 10.1017/s1431927612004084
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Revealing Transient Phase Evolution in Reactive Multi-layer Foils using Dynamic TEM

Abstract: Extended abstract of a paper presented at Microscopy and Microanalysis 2012 in Phoenix, Arizona, USA, July 29 – August 2, 2012.

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“…Similarly, a smooth wavefront is observed in Ti/2B when imaged with nanometer spatial resolution using dynamic TEM, as in Fig. 14 [151]. In this case, a narrow, uniform reaction zone (~1 μm in width) is present along the boundary between reacted TiB 2 and the unreacted Ti/2B multilayer.…”
Section: Characteristics Of Steady Reaction Frontsmentioning
confidence: 60%
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“…Similarly, a smooth wavefront is observed in Ti/2B when imaged with nanometer spatial resolution using dynamic TEM, as in Fig. 14 [151]. In this case, a narrow, uniform reaction zone (~1 μm in width) is present along the boundary between reacted TiB 2 and the unreacted Ti/2B multilayer.…”
Section: Characteristics Of Steady Reaction Frontsmentioning
confidence: 60%
“…In applications that involve multilayer heat sources, such as joining or power sources, multilayers may exceed 100 μm total thickness. In contrast, thin multilayers,~100-200 nm, are typically used in dynamic TEM experiments [3,140,151]. It is noted that the minimum total thickness for selfpropagating reactions has not been determined rigorously for any materials system.…”
Section: Planar Multilayers Exhibiting Self-propagating Reactionsmentioning
confidence: 99%
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