Tholins formed at 0.125 torr have threefold lower production rate but higher density and nanoindentation hardness than those at 1 torr, while particle size, morphology, surface energy, and Young's modulus remain similar.
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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.
Amorphous Al2O3 coatings show steadily decreasing hardness but constant Young's modulus from 25-650C, remain non-crystalline, and crystallize via intermediate phases to stable alpha-Al2O3 above 950C.
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Feeling the Pressure: Effects of Formation Pressure on the Physical Properties of Titan Haze Analogs
Tholins formed at 0.125 torr have threefold lower production rate but higher density and nanoindentation hardness than those at 1 torr, while particle size, morphology, surface energy, and Young's modulus remain similar.
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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.
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High-temperature behavior of amorphous alumina coatings: Insights from in-situ nanoindentation and X-ray diffraction studies
Amorphous Al2O3 coatings show steadily decreasing hardness but constant Young's modulus from 25-650C, remain non-crystalline, and crystallize via intermediate phases to stable alpha-Al2O3 above 950C.