Electroslag Remelting Withdrawing Technology for Offshore Jack-up Platform Rack Steel Manufacturing Process

Offshore jack up platform rack steel must exhibit high strength and toughness as well as excellent welding properties. A high-quality large ingot is a prerequisite for obtaining a high-performance rough part. The electroslag remelting withdrawing (ESRW) technology using a T-shaped mold and bifilar m...

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Bibliographic Details
Published inJournal of iron and steel research, international Vol. 23; no. 4; pp. 297 - 304
Main Authors ZANG, Xi-min, QIU, Tian-yu, LI, Wan-ming, DENG, Xin, JIANG, Zhou-hua, SONG, Hua
Format Journal Article
LanguageEnglish
Published Singapore Elsevier Ltd 01.04.2016
Springer Singapore
Subjects
Applied and Technical Physics
ASTM标准
electroslag remelting withdrawing
Engineering
low temperature toughness
Machines
Manufacturing
Materials Engineering
Materials Science
mechanical performance
Metallic Materials
Metallurgy and Metal Working
Physical Chemistry
Processes
rack steel
制造工艺
台架
回收工艺
条钢
电渣重熔
自升式
铸造技术
low temperature toughness
rack steel
electroslag remelting withdrawing
mechanical performance
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Summary:Offshore jack up platform rack steel must exhibit high strength and toughness as well as excellent welding properties. A high-quality large ingot is a prerequisite for obtaining a high-performance rough part. The electroslag remelting withdrawing (ESRW) technology using a T-shaped mold and bifilar mode was introduced to replace casting technology. Numerical simulation of the ESRW process was performed to determine the distribution of the temperature and velocity fields and to determine the optimum process for producing rack steels. Several A514Q slab ingots with dimensions of 0.32 m×1.40 m × 4.00 m were produced using ESRW technology in an industrial plant. The industrial test indicated that slab ingots produced by the ESRW method exhibited uniform chemical compositions and compact macrostructures. A 115.4 mm thick plate was produced from the rough ingot after 11 roiling passes. Samples were obtained from different positions in the steel plate to test the mechanical performance and examine the microstructure, and the results revealed that the properties of the steel plate satisfied ASTM standards. The ESRW process improved the tensile strength and toughness of the slab ingot, enabling significant improvements in the anisotropy and low temperature toughness, which are critical for the development of rack steel for offshore platforms.
Bibliography:electroslag remelting withdrawing; rack steel; mechanical performance; low temperature toughness
11-3678/TF
Offshore jack up platform rack steel must exhibit high strength and toughness as well as excellent welding properties. A high-quality large ingot is a prerequisite for obtaining a high-performance rough part. The electroslag remelting withdrawing (ESRW) technology using a T-shaped mold and bifilar mode was introduced to replace casting technology. Numerical simulation of the ESRW process was performed to determine the distribution of the temperature and velocity fields and to determine the optimum process for producing rack steels. Several A514Q slab ingots with dimensions of 0.32 m×1.40 m × 4.00 m were produced using ESRW technology in an industrial plant. The industrial test indicated that slab ingots produced by the ESRW method exhibited uniform chemical compositions and compact macrostructures. A 115.4 mm thick plate was produced from the rough ingot after 11 roiling passes. Samples were obtained from different positions in the steel plate to test the mechanical performance and examine the microstructure, and the results revealed that the properties of the steel plate satisfied ASTM standards. The ESRW process improved the tensile strength and toughness of the slab ingot, enabling significant improvements in the anisotropy and low temperature toughness, which are critical for the development of rack steel for offshore platforms.
ISSN:1006-706X
2210-3988
DOI:10.1016/S1006-706X(16)30049-8