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these achievements to the microstructural engineering of two AM steels: 316L and 17-4 PH, to show the potential in improving the toughness and fatigue resistance. The work will be based primarily on experimental work
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are also expected to contribute to the characterization of the thermoelectric generators after field testing and to implement the results of accelerated fatigue tests in heat transfer models to predict
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sophisticated experimental campaigns to investigate the mechanical behavior of various materials under diverse loading conditions (e.g., tension, compression, shear, fatigue, impact, high temperature). Develop
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essential step of the entire hydrogen chain. Owing to their light weight, high specific strength, good fatigue response, and dimensional stability, the use of fiber-reinforced plastic pressure vessels for
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include structural integrity, fatigue and fracture mechanics, collision survivability, hull design, risk and reliability analysis, ship resistance and motions, and propulsion systems. Our research spans