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Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab

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Zeitschriftentitel: Materials Science Forum
Personen und Körperschaften: Chen, D.F., Huang, L., Long, M.J., Wen, L.Y., Dong, L.Y.
In: Materials Science Forum, 575-578, 2008, S. 69-74
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
General Materials Science
author_facet Chen, D.F.
Huang, L.
Long, M.J.
Wen, L.Y.
Dong, L.Y.
Chen, D.F.
Huang, L.
Long, M.J.
Wen, L.Y.
Dong, L.Y.
author Chen, D.F.
Huang, L.
Long, M.J.
Wen, L.Y.
Dong, L.Y.
spellingShingle Chen, D.F.
Huang, L.
Long, M.J.
Wen, L.Y.
Dong, L.Y.
Materials Science Forum
Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
General Materials Science
author_sort chen, d.f.
spelling Chen, D.F. Huang, L. Long, M.J. Wen, L.Y. Dong, L.Y. 1662-9752 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science http://dx.doi.org/10.4028/www.scientific.net/msf.575-578.69 <jats:p>The modeling of solidification in Continuous Casting demands the mechanical properties of steels at high temperature. These mechanical properties parameters provide the design data for the target surface temperature curve and dynamic control modeling of secondary cooling system, and are used to research hot delivery and crack mechanisms of cast slab. The properties parameters of steels can be obtained by physics simulation experiment. Following processing parameters in Continuous Casting, the stress-strain curves and mechanical properties of steel Q345 were tested and analyzed. Then the curves of relationships between the yield strength, tensile strength, reduction of area, Young’s modulus, plastic modulus of steel Q345 and temperature were obtained. We found the strength of steel Q345 cast slab felled down basically; the ductility was decreased below 700°C, in the range of 725°C-900°C and 1275°C-melting point. The plastic modulus was analyzed with the different temperatures and the different strains in detail. The parameters of mechanical properties for steel Q345 were obtained for using in elastic-plasticity stress model.</jats:p> Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab Materials Science Forum
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series Materials Science Forum
source_id 49
title Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_unstemmed Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_full Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_fullStr Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_full_unstemmed Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_short Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_sort thermal simulation on mechanical properties of steel q345 for continuous casting slab
topic Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/msf.575-578.69
publishDate 2008
physical 69-74
description <jats:p>The modeling of solidification in Continuous Casting demands the mechanical properties of steels at high temperature. These mechanical properties parameters provide the design data for the target surface temperature curve and dynamic control modeling of secondary cooling system, and are used to research hot delivery and crack mechanisms of cast slab. The properties parameters of steels can be obtained by physics simulation experiment. Following processing parameters in Continuous Casting, the stress-strain curves and mechanical properties of steel Q345 were tested and analyzed. Then the curves of relationships between the yield strength, tensile strength, reduction of area, Young’s modulus, plastic modulus of steel Q345 and temperature were obtained. We found the strength of steel Q345 cast slab felled down basically; the ductility was decreased below 700°C, in the range of 725°C-900°C and 1275°C-melting point. The plastic modulus was analyzed with the different temperatures and the different strains in detail. The parameters of mechanical properties for steel Q345 were obtained for using in elastic-plasticity stress model.</jats:p>
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author Chen, D.F., Huang, L., Long, M.J., Wen, L.Y., Dong, L.Y.
author_facet Chen, D.F., Huang, L., Long, M.J., Wen, L.Y., Dong, L.Y., Chen, D.F., Huang, L., Long, M.J., Wen, L.Y., Dong, L.Y.
author_sort chen, d.f.
container_start_page 69
container_title Materials Science Forum
container_volume 575-578
description <jats:p>The modeling of solidification in Continuous Casting demands the mechanical properties of steels at high temperature. These mechanical properties parameters provide the design data for the target surface temperature curve and dynamic control modeling of secondary cooling system, and are used to research hot delivery and crack mechanisms of cast slab. The properties parameters of steels can be obtained by physics simulation experiment. Following processing parameters in Continuous Casting, the stress-strain curves and mechanical properties of steel Q345 were tested and analyzed. Then the curves of relationships between the yield strength, tensile strength, reduction of area, Young’s modulus, plastic modulus of steel Q345 and temperature were obtained. We found the strength of steel Q345 cast slab felled down basically; the ductility was decreased below 700°C, in the range of 725°C-900°C and 1275°C-melting point. The plastic modulus was analyzed with the different temperatures and the different strains in detail. The parameters of mechanical properties for steel Q345 were obtained for using in elastic-plasticity stress model.</jats:p>
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physical 69-74
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publisher Trans Tech Publications, Ltd.
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series Materials Science Forum
source_id 49
spelling Chen, D.F. Huang, L. Long, M.J. Wen, L.Y. Dong, L.Y. 1662-9752 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science http://dx.doi.org/10.4028/www.scientific.net/msf.575-578.69 <jats:p>The modeling of solidification in Continuous Casting demands the mechanical properties of steels at high temperature. These mechanical properties parameters provide the design data for the target surface temperature curve and dynamic control modeling of secondary cooling system, and are used to research hot delivery and crack mechanisms of cast slab. The properties parameters of steels can be obtained by physics simulation experiment. Following processing parameters in Continuous Casting, the stress-strain curves and mechanical properties of steel Q345 were tested and analyzed. Then the curves of relationships between the yield strength, tensile strength, reduction of area, Young’s modulus, plastic modulus of steel Q345 and temperature were obtained. We found the strength of steel Q345 cast slab felled down basically; the ductility was decreased below 700°C, in the range of 725°C-900°C and 1275°C-melting point. The plastic modulus was analyzed with the different temperatures and the different strains in detail. The parameters of mechanical properties for steel Q345 were obtained for using in elastic-plasticity stress model.</jats:p> Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab Materials Science Forum
spellingShingle Chen, D.F., Huang, L., Long, M.J., Wen, L.Y., Dong, L.Y., Materials Science Forum, Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab, Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science
title Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_full Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_fullStr Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_full_unstemmed Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_short Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
title_sort thermal simulation on mechanical properties of steel q345 for continuous casting slab
title_unstemmed Thermal Simulation on Mechanical Properties of Steel Q345 for Continuous Casting Slab
topic Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/msf.575-578.69