Publications with the keyword "spinodal decomposition"


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R. Strubbia, M. Sennour, and S. Hereñú
Effect of 475°C embrittlement on the low cycle fatigue behaviour of lean duplex stainless steels
Fatigue and Fracture of Engineering Materials and Structures (cited By 3), 41(2), 473-482, 2018
dislocations (crystals) embrittlement fatigue of materials high resolution transmission electron microscopy stainless steel transmission electron microscopy dislocation microstructures dislocation structures duplex stainless steel lean duplex stainless steel low cycle fatigue life low cycle fatigues thermal embrittlement vickers microhardness spinodal decomposition
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U. Krupp, M. Söker, A. Giertler, B. Dönges, H.-J. Christ, K. Wackermann, T. Boll, M. Thuvander, et al.
The potential of spinodal ferrite decomposition for increasing the very high cycle fatigue strength of duplex stainless steel
International Journal of Fatigue (cited By 6), 93, 363-371, 2016
austenite austenitic stainless steel cracks dissolution fatigue of materials ferrite probes stainless steel ultrasonic testing atom probe tomography candidate materials duplex stainless steel ferrite decomposition ferritic microstructure strengthening effect structural applications very high cycle fatigue spinodal decomposition
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S. Hereñú, M. Moscato, I. Alvarez-Armas, and A. Armas
Cyclic behavior of a superferritic stainless steel at room and intermediate temperatures
International Journal of Fatigue (cited By 3), 65, 71-77, 2014
heat treatment precipitates spinodal decomposition strain rate dislocation arrangement dsa dynamic strain aging high dislocation density intermediate temperatures inverse dependence lcf superferritic stainless steel fatigue of materials
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S. Hereñú, M. Sennour, M. Balbi, I. Alvarez-Armas, A. Thorel, and A. Armas
Influence of dislocation glide on the spinodal decomposition of fatigued duplex stainless steels
Materials Science and Engineering A (cited By 13), 528(2526), 7636-7640, 2011
aged duplex stainless steels cyclic softening dislocation arrangement dislocation glide dislocation movement duplex stainless steel eds measurements energy dispersive x ray spectroscopy ferritic phase microbands scanning transmission electron microscopy spinodals corrosion resistant alloys stainless steel transmission electron microscopy x ray spectroscopy spinodal decomposition
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A. Armas, S. Hereñú, I. Alvarez-Armas, S. Degallaix, A. Condó, and F. Lovey
The influence of temperature on the cyclic behavior of aged and unaged super duplex stainless steels
Materials Science and Engineering A (cited By 28), 491(12), 434-439, 2008
analog differential analyzers demodulation ferrite ferritic steel sensitivity analysis stainless steel steel corrosion steel metallurgy cyclic behavior cyclic hardening cyclic softening dislocation structure duplex stainless steel duplex stainless steels dynamic strain aging embrittlement fatigue life-time fatigue-life ferrite phase ferritic phase high temperature intermediate temperatures room temperatures spinodal super duplex stainless spinodal decomposition
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