Simulation of Texture Development of Plane Carbon Steel in Multipass Rolling Using Analytical Flow Function

Benoît Beausir; László S. Tóth; Olivier Bouaziz

doi:10.4028/www.scientific.net/MSF.495-497.1603

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HomeMaterials Science ForumMaterials Science Forum Vols. 495-497Simulation of Texture Development of Plane Carbon...

Simulation of Texture Development of Plane Carbon Steel in Multipass Rolling Using Analytical Flow Function

Abstract:

Using a simple analytical flow function, an analysis of the deformation field in symmetrical rolling has been carried out. The so-obtained varying velocity gradient is incorporated into the Taylor polycrystal plasticity model to simulate the development of the deformation texture. The initial discontinuity in the deformation field of the entering material element on the flow lines is also taken into account. Multiple passes of the material is simulated. A strong texture gradient is obtained in good agreement with experiments carried out for rolling of plane carbon steel. It is shown that the shear component of the texture is strongly related to the nature of multiple passes of the rolling operation.

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Periodical:

Materials Science Forum (Volumes 495-497)

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1603-1608

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https://doi.org/10.4028/www.scientific.net/MSF.495-497.1603

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Online since:

September 2005

Authors:

Benoît Beausir, László S. Tóth, Olivier Bouaziz

Keywords:

Rolling , Crystallographic Texture, Flow Function, Steel

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References

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