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M. Batista, M. Marinelli, and I. Alvarez-Armas
Effect of initial microstructure on surface relief and fatigue crack initiation in AISI 410 ferritic-martensitic steel
Fatigue and Fracture of Engineering Materials and Structures (cited By 3), 42(1), 61-68, 2019
diffraction fatigue crack propagation fatigue of materials fatigue testing ferrite ferritic steel microcracks microstructure nucleation scanning electron microscopy ebsd electron back-scattered diffraction electron backscattered diffraction analysis fatigue crack initiation ferritic-martensitic steels low cycle fatigues microcrack nucleation tempered microstructure martensitic stainless steel
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M. Marinelli, I. Alvarez-Armas, and U. Krupp
Cyclic deformation mechanisms and microcracks behavior in high-strength bainitic steel
Materials Science and Engineering A (cited By 13), 684, 254-260, 2017
bainite cracks deformation fatigue of materials ferrite microstructure scanning electron microscopy steel cyclic deformations dislocation structures electron back-scattered diffraction experimental evidence high strength bainitic steel initiation propagation low cycle fatigues misorientation angle high strength steel
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R. Strubbia, S. Hereñú, M. Marinelli, and I. Alvarez-Armas
Fatigue damage in coarse-grained lean duplex stainless steels
Materials Science and Engineering A (cited By 9), 659, 47-54, 2016
coarsening cracks fatigue damage fatigue of materials grain boundaries grain growth high resolution transmission electron microscopy microstructure transmission electron microscopy crack nucleation dislocation structures duplex stainless steel electron back scattered diffraction techniques grain coarsening lean duplex stainless steel propagation behavior scanning electrons stainless steel
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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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M. Batista, M. Marinelli, S. Hereñú, and I. Alvarez-Armas
The role of microstructure in fatigue crack initiation of 9-12%Cr reduced activation ferritic-martensitic steel
International Journal of Fatigue (cited By 23), 72, 75-79, 2015
chemical activation crack initiation fatigue crack propagation fatigue of materials ferrite ferritic steel microcracks microstructure nucleation scanning electron microscopy transmission electron microscopy dislocation microstructures ebsd technique electron back-scattered diffraction ferritic-martensitic steels lcf microcrack nucleation reduced activation ferritic-martensitic scanning transmission electron microscopy martensitic steel
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M. Marinelli, U. Krupp, M. Kübbeler, S. Hereñú, and I. Alvarez-Armas
The effect of the embrittlement on the fatigue limit and crack propagation in a duplex stainless steel during high cycle fatigue
Engineering Fracture Mechanics (cited By 13), 110, 421-429, 2013
cyclic loading test duplex stainless steel electron back-scattered diffraction heat treatment conditions high cycle fatigue high-cycle fatigues initiation propagation propagation modeling constitutive models embrittlement fatigue crack propagation fatigue of materials scanning electron microscopy cracks
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A. E. Bartali, M.-C. Marinelli, M. Balbi, V. Aubin, I. Alvarez-Armas, and S. Degallaix-Moreuil
Stage I in low-cycle fatigue (LCF) damage in a duplex stainless steel (DSS) [Stade I d'endommagement par fatigue plastique oligocyclique (FPO) dans un acier inoxydable duplex (AID)]
Materiaux et Techniques (cited By 0), 100(1), 69-78, 2012
crystallographic orientation relations cyclic plasticity duplex stainless steel in-situ initiation propagation kurdjumov-sachs low cycle fatigues mechanical tests micropropagation non-existence posteriori room temperature schmid factors sem observation slip system surface microcracks transmission conditions crack initiation crack propagation fatigue damage
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I. Alvarez-Armas, U. Krupp, M. Balbi, S. Hereñú, M. Marinelli, and H. Knobbe
Growth of short cracks during low and high cycle fatigue in a duplex stainless steel
International Journal of Fatigue (cited By 41), 41, 95-100, 2012
austenite grain damage evolution dislocation structures duplex stainless steel electron back-scattered diffraction ferrite phase high cycle fatigue high-cycle fatigues lcf low cycle fatigues low density microbands microcrack initiation near-surface pile-ups schmid factors short cracks slip band slip band formation slip plane transmission electron microscopy (tem) austenite crack tips embrittlement fatigue of materials ferrite grain boundaries microstructure piles scanning electron microscopy single crystals stainless steel transmission electron microscopy microcracks
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R. Strubbia, S. Hereñú, M. Marinelli, and I. Alvarez-Armas
Short crack nucleation and growth in lean duplex stainless steels fatigued at room temperature
International Journal of Fatigue (cited By 17), 41, 90-94, 2012
cyclic behavior cyclic hardening cyclic softening dislocation structures duplex stainless steel fatigue behavior ferrite grains lean duplex stainless steel lower stress room temperature short cracks solid solution hardening crack initiation crack propagation fatigue of materials molybdenum stainless steel
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M. Marinelli, M. Moscato, J. Signorelli, A. E. Bartali, and I. Alvarez-Armas
K-S relationship identification technique by EBSD
Key Engineering Materials (cited By 7), 465, 415-418, 2011
cold rolling duplex stainless steel grain boundaries metal cladding microcracks crystallographic properties ebsd electron back-scattered diffraction flat specimen identification techniques k s relationship kurdjumov-sachs relationships low cycle fatigues fatigue of materials
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M.-C. Marinelli, A. E. Bartali, J. Signorelli, P. Evrard, V. Aubin, I. Alvarez-Armas, and S. Degallaix-Moreuil
Activated slip systems and microcrack path in LCF of a duplex stainless steel
Materials Science and Engineering A (cited By 51), 509(12), 81-88, 2009
cyclic plasticity duplex stainless steel low-cycle fatigue microcrack initiation short crack propagation austenite crack propagation fatigue of materials fatigue testing ferrite grain boundaries microcracks plastic deformation plasticity steel metallurgy wear resistance stainless steel
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M. Marinelli, S. Degallaix, and I. Alvarez-Armas
Short crack initiation during low-cycle fatigue in SAF 2507 duplex stainless steel
Key Engineering Materials (cited By 4), 345346, 343-346, 2007
crack initiation crystallography fatigue of materials microcracks microstructure nucleation thermal effects duplex stainless steel duplex stainless steel (dss) low-cycle fatigue strain controlled cyclic tests stainless steel
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I. Alvarez-Armas, M. Marinelli, J. Malarría, S. Degallaix, and A. Armas
Microstructure associated with crack initiation during low-cycle fatigue in a low nitrogen duplex stainless steel
International Journal of Fatigue (cited By 36), 29(4), 758-764, 2007
crack initiation dislocations (crystals) fatigue of materials nucleation stainless steel transmission electron microscopy crack nucleation low-cycle fatigue phase boundary microstructure
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I. Alvarez-Armas, M. Marinelli, S. Hereñú, S. Degallaix, and A. Armas
On the cyclic softening behavior of SAF 2507 duplex stainless steel
Acta Materialia (cited By 38), 54(19), 5041-5049, 2006
cell structure cyclic softening low-cycle fatigue cyclic loads deformation fatigue of materials microstructure strain stress analysis stainless steel
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M. Marinelli, S. Degallaix, and I. Alvarez-Armas
Dislocation structure developed in the austenitic-phase of SAF 2507 duplex stainless steel
Materials Science and Engineering A (cited By 15), 435436, 305-308, 2006
austenite cracks fatigue of materials fracture grain boundaries metallographic microstructure strain austenitic grains dislocation structure persistent slip bands stainless steel austenite cracks fatigue of materials fracture grain boundaries metallographic microstructure stainless steel strain
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M. Marinelli, R. Strubbia, S. Hereñu, and I. A. Armas
Experimental and numerical analysis of short fatigue cracks in lean duplex stainless steels
Procedia Engineering (cited By 2), 74, 183-186, 2014
cracks deformation fatigue crack propagation fatigue of materials ferrite grain boundaries scanning electron microscopy stainless steel electron back scattered diffraction techniques experimental numerical analysis initiation propagation lean duplex stainless steel lean duplexes low cycle fatigues short crack propagation short fatigue cracks fatigue damage
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