Detail publikace

Nonhomogeneous cooling effect on metallurgical structure of material

Originální název

Nonhomogeneous cooling effect on metallurgical structure of material

Anglický název

Nonhomogeneous cooling effect on metallurgical structure of material

Jazyk

en

Originální abstrakt

The article describes the experiment with nonhomogeneous cooling of flat steel product. The measured data are processed and boundary conditions such as heat transfer coefficient, heat flux, and surface temperature are computed using inverse method. The data from the experiments are used for the simulations of the cooling in real plant. The simulation describes intensive cooling under the nozzles and less intensive cooling between nozzles. Different cooling rates lead to different metallurgical structures of the final product.

Anglický abstrakt

The article describes the experiment with nonhomogeneous cooling of flat steel product. The measured data are processed and boundary conditions such as heat transfer coefficient, heat flux, and surface temperature are computed using inverse method. The data from the experiments are used for the simulations of the cooling in real plant. The simulation describes intensive cooling under the nozzles and less intensive cooling between nozzles. Different cooling rates lead to different metallurgical structures of the final product.

BibTex


@inproceedings{BUT72523,
  author="Jana {Ondroušková} and Michal {Pohanka}",
  title="Nonhomogeneous cooling effect on metallurgical structure of material",
  annote="The article describes the experiment with nonhomogeneous cooling of flat steel product. The measured data are processed and boundary conditions such as heat transfer coefficient, heat flux, and surface temperature are computed using inverse method. The data from the experiments are used for the simulations of the cooling in real plant. The simulation describes intensive cooling under the nozzles and less intensive cooling between nozzles. Different cooling rates lead to different metallurgical structures of the final product.",
  booktitle="Power System Engineering, Thermodynamics & Fluid Flow",
  chapter="72523",
  howpublished="electronic, physical medium",
  year="2011",
  month="june",
  pages="10--16",
  type="conference paper"
}