Nascent carbonaceous particles from toluene shock-tube pyrolysis exhibit a phase transition at 1570 K and an ordering threshold at 1670 K, with radical-rich structures below the transition temperature.
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Fabrication and testing of 3D architected interpenetrating phase composites demonstrate that the matrix distributes stress for high-strength stable response and failure delocalization yields specific energy absorption comparable to wound fiber tubes.
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Effect of reaction temperature on nascent carbonaceous particles from toluene shock-tube pyrolysis: Insights from FTIR and Raman spectroscopy
Nascent carbonaceous particles from toluene shock-tube pyrolysis exhibit a phase transition at 1570 K and an ordering threshold at 1670 K, with radical-rich structures below the transition temperature.
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Mechanics of three-dimensional micro-architected interpenetrating phase composites
Fabrication and testing of 3D architected interpenetrating phase composites demonstrate that the matrix distributes stress for high-strength stable response and failure delocalization yields specific energy absorption comparable to wound fiber tubes.