Continuous bending and straightening technology of Q345c slab based on high-temperature creep deformation

A new continuous bending and straightening casting curve with the aim of full using of high-temperature creep deformation was proposed. The curvature of bending and straightening segment varies as sine law with arc length. The basic arc segment is shortened significantly so that the length of bendin...

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Bibliographic Details
Published inJournal of iron and steel research, international Vol. 24; no. 6; pp. 595 - 600
Main Authors Guo, Long, Zhang, Xing-zhong, Feng, Chang-xi
Format Journal Article
LanguageEnglish
Published Singapore Elsevier Ltd 01.06.2017
Springer Singapore
Subjects
Applied and Technical Physics
Continuous bending
Continuous straightening
creep behavior
Creep strain rate
Engineering
High-temperature
Machines
Manufacturing
Materials Engineering
Materials Science
Metallic Materials
Physical Chemistry
Processes
Steel continuous casting
Strain rate
应变率
板坯
矫直技术
蠕变变形
蠕变时间
连续弯曲
铸造机
高温蠕变性能
Creep strain rate
Continuous bending
Continuous straightening
Steel continuous casting
High-temperature
creep behavior
Strain rate
High-temperature creep behavior
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Summary:A new continuous bending and straightening casting curve with the aim of full using of high-temperature creep deformation was proposed. The curvature of bending and straightening segment varies as sine law with arc length. The basic arc segment is shortened significantly so that the length of bending and straightening area can be extended and the time of creep behavior can be increased. The distance from so lidifying front in the slab was calculated at 1200 ℃ by finite element method. The maximum strain rate of new casting curve at different locations inside the slab is 6.39 × 10 ^-5 s ^-1 during the bending segment and it tends to be 3.70 × 10 ^-5 s ^-1 in the straightening segment. The minimum creep strain rate is 7.45× 10 ^-5 s ^-1 when the stress is 14 MPa at 1 200 ℃. The strain rate of new casting machine can be less than the mini mum creep strain rate. Thus, there is only creep deformation and no plastic deformation in the bending and straightening process of steel continuous casting. Deformation of slabs depending on creep behavior only comes true. It is helpful for the design of the new casting machine and improvement of old casting machine depending on high temperature creep property.
Bibliography:Steel continuous castingCreep strain rateStrain rateHigh-temperaturecreep behaviorContinuous bendingContinuous straightening
11-3678/TF
A new continuous bending and straightening casting curve with the aim of full using of high-temperature creep deformation was proposed. The curvature of bending and straightening segment varies as sine law with arc length. The basic arc segment is shortened significantly so that the length of bending and straightening area can be extended and the time of creep behavior can be increased. The distance from so lidifying front in the slab was calculated at 1200 ℃ by finite element method. The maximum strain rate of new casting curve at different locations inside the slab is 6.39 × 10 ^-5 s ^-1 during the bending segment and it tends to be 3.70 × 10 ^-5 s ^-1 in the straightening segment. The minimum creep strain rate is 7.45× 10 ^-5 s ^-1 when the stress is 14 MPa at 1 200 ℃. The strain rate of new casting machine can be less than the mini mum creep strain rate. Thus, there is only creep deformation and no plastic deformation in the bending and straightening process of steel continuous casting. Deformation of slabs depending on creep behavior only comes true. It is helpful for the design of the new casting machine and improvement of old casting machine depending on high temperature creep property.
ISSN:1006-706X
2210-3988
DOI:10.1016/S1006-706X(17)30090-0