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Modelling and characterisation of the texture development in the fusion zone of an austenitic weld

(2011) STEEL RESEARCH INTERNATIONAL. 82(8). p.911-917
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Abstract
The relation between texture and microstructure and the macroscopic solidification direction has been investigated for an austenitic 316L stainless steel weld. The fusion zone has been characterised by EBSD. Texture development has been simulated by thermal Finite Element Analysis coupled with a simple model of preferential < 100 >-oriented solidification following the solidification direction. The thermal part is validated by means of thermocouple measurements at several locations on the specimen. The predicted texture is in very good agreement with the measured one.
Keywords
PLATE, STEEL

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Chicago
Decroos, Koenraad, Marc Seefeldt, Carsten Ohms, Roumen Petrov, Frederik Verhaeghe, and Leo Kestens. 2011. “Modelling and Characterisation of the Texture Development in the Fusion Zone of an Austenitic Weld.” Steel Research International 82 (8): 911–917.
APA
Decroos, Koenraad, Seefeldt, M., Ohms, C., Petrov, R., Verhaeghe, F., & Kestens, L. (2011). Modelling and characterisation of the texture development in the fusion zone of an austenitic weld. STEEL RESEARCH INTERNATIONAL, 82(8), 911–917.
Vancouver
1.
Decroos K, Seefeldt M, Ohms C, Petrov R, Verhaeghe F, Kestens L. Modelling and characterisation of the texture development in the fusion zone of an austenitic weld. STEEL RESEARCH INTERNATIONAL. 2011;82(8):911–7.
MLA
Decroos, Koenraad, Marc Seefeldt, Carsten Ohms, et al. “Modelling and Characterisation of the Texture Development in the Fusion Zone of an Austenitic Weld.” STEEL RESEARCH INTERNATIONAL 82.8 (2011): 911–917. Print.
@article{2950146,
  abstract     = {The relation between texture and microstructure and the macroscopic solidification direction has been investigated for an austenitic 316L stainless steel weld. The fusion zone has been characterised by EBSD. Texture development has been simulated by thermal Finite Element Analysis coupled with a simple model of preferential < 100 >-oriented solidification following the solidification direction. The thermal part is validated by means of thermocouple measurements at several locations on the specimen. The predicted texture is in very good agreement with the measured one.},
  author       = {Decroos, Koenraad and Seefeldt, Marc and Ohms, Carsten and Petrov, Roumen and Verhaeghe, Frederik and Kestens, Leo},
  issn         = {1611-3683},
  journal      = {STEEL RESEARCH INTERNATIONAL},
  keywords     = {PLATE,STEEL},
  language     = {eng},
  number       = {8},
  pages        = {911--917},
  title        = {Modelling and characterisation of the texture development in the fusion zone of an austenitic weld},
  url          = {http://dx.doi.org/10.1002/srin.201000297},
  volume       = {82},
  year         = {2011},
}

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