Publications with the keyword "rolling"


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A. Druker, C. Sobrero, V. Fuster, J. Malarría, and R. Bolmaro
Is it Possible to Use Rolling Methods to Improve Textures on Fe-Mn-Si Shape Memory Alloys?
Advanced Engineering Materials (cited By 4; Article in Press), 2017
manganese martensitic transformations metal implants metallurgy shape memory effect shear flow silicon alloys crystallographic orientations fe-mn-si shape memory alloys metals alloys microstructural heterogeneity rolling deformation rolling methods surface layers texture microstructures rolling
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M. Vega, R. Bolmaro, M. Ferrante, V. Sordi, and A. Kliauga
The influence of deformation path on strain characteristics of AA1050 aluminium processed by equal-channel angular pressing followed by rolling
Materials Science and Engineering A (cited By 17), 646, 154-162, 2015
aluminum dynamic recrystallization grain boundaries grain size shape microstructure pressing (forming) rolling textures crystallographic textures ecap fine microstructure high angle grain boundaries low angle grain boundaries micro-structure evolutions severe plastic deformations strain characteristics equal channel angular pressing
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F. Malamud, J. Santisteban, M. V. Alvarez, R. Bolmaro, J. Kelleher, S. Kabra, and W. Kockelmann
Texture analysis with a time-of-flight neutron strain scanner
Journal of Applied Crystallography (cited By 14), 47(4), 1337-1354, 2014
niobium nuclear power plants poles rolling scanning textures crystallographic textures macroscopic objects neutron transmission measurements orientation distribution function spatial resolution strain scanner texture analysis x ray diffractometers neutrons
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A. Druker, A. Perotti, I. Esquivel, and J. Malarría
A manufacturing process for shaft and pipe couplings of Fe-Mn-Si-Ni-Cr shape memory alloys
Materials and Design (cited By 25), 56, 878-888, 2014
formability industrial applications iron alloys manganese manufacture martensitic transformations nickel rolling shape optimization silicon weldability welding fe-mn-si manufacturing process permanent deformations shape recovery shape-memory shape-memory properties stress induced martensitic transformation thermo-mechanical processing couplings
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A. Druker, I. Esquivel, A. Perotti, and J. Malarria
Optimization of Fe-15Mn-5Si-9Cr-5Ni shape memory alloy for pipe and shaft couplings
Journal of Materials Engineering and Performance (cited By 4), 23(7), 2732-2737, 2014
annealing couplings crystal defects electron microscopy manganese martensitic transformations nickel rolling shape memory effect shape optimization silicon superalloys welding annealing temperatures chemical compositions fe-mn-si shape memory alloys industrial production mechanical response optimal parameter shape-memory properties technological feasibility iron alloys
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A. Druker, A. Perotti, A. Baruj, and J. Malarría
Heat treatments of Fe-Mn-Si based alloys: Mechanical properties and related shape memory phenomena
ASTM Special Technical Publication (cited By 1), 1532, 287-300, 2012
annealing chromium alloys iron alloys mechanisms microstructure nickel alloys rolling shape optimization silicon alloys tensile strength yield stress alloy microstructure annealing treatments fe-mn-si fe-mn-si based alloys optical electron microscopies recovery recrystallization shape memory ultimate tensile strength manganese alloys
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A. Roatta, A. Fourty, J. Signorelli, M. Bertinetti, and R. Bolmaro
Simulation of recrystallization textures in FCC materials starting from self-consistent modelling results
Materials Science Forum (cited By 0), 495497(2), 1207-1212, 2005
brass computer simulation grain boundaries mathematical models nucleation recrystallization (metallurgy) rolling stacking faults brass texture patterns grain boundary mobility micro-mechanisms stacking fault energy materials textures
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R. Bolmaro, A. Roatta, A. Fourty, and J. Signorelli
Recrystallization textures in fcc materials: A simulation based on micromechanical modeling data
Scripta Materialia (cited By 15), 53(2), 147-152, 2005
computer simulation grain boundaries grain growth mathematical models nucleation recrystallization (metallurgy) rolling textures thermodynamics low stacking fault (lsf) energies micromechanical modeling misorientation nucleate free dislocation crystal lattices
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R. Lebensohn, M. González, C. Tomé, and A. Pochettino
1.4. Mechanical behavior: Measurement and prediction of texture development during a rolling sequence of Zircaloy-4 tubes
Journal of Nuclear Materials (cited By 46), 229, 57-64, 1996
anisotropy annealing computer simulation crystals numerical methods recrystallization (metallurgy) rolling shear stress textures zirconium alloys active slip area reduction factor rolling sequence viscoplastic self consistent formulation zircaloy cladding tubes tubes (components)
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R. Bolmaro, R. Browning, F. Guerra, and A. Rollett
Texture development in AgNi powder composites
Materials Science and Engineering A (cited By 9), 175(12), 113-124, 1994
characterization deformation finite element method mathematical models metallic matrix composites nickel powder metals rolling silver spatial variables measurement strain powder composites texture development texture measurement two phase materials textures
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