PT Journal
AU Zurnadzhy, V
   Chabak, Y
   Petryshynets, I
   Efremenko, A
   Sili, I
   Sagirov, R
   Efremenko, V
TI Advancing the ductile behaviour of heavy-wall API X70 pipeline steel by a "Slab/Sheet" thickness ratio increase
SO Manufacturing Technology Journal
PY 2024
BP 843
EP 854
VL 24
IS 5
DI 10.21062/mft.2024.090
DE X70 steel sheet; Slab thickness; TMCP; Accelerated cooling; Mechanical properties; DWTT
AB The present work was aimed at studying the effect of a "Slab/Sheet" thickness ratio (SSTR) on the microstructure and mechanical properties of API 5L X70 steel sheets intended for heavy-wall oil/gas pipelines. The 25 mm-thick and 40 mm-thick steel sheets were rolled from the cast slabs of different thicknesses (250 mm and 300 mm) and their mechanical properties were compared. The sheets were subjected to thermo-mechanical controlled processing followed by accelerating cooling, resulting in the structure of quasi-polygonal/acicular ferrite with minor amounts of granular pearlite and martensite-austenite constituents. Increasing the cast slab thickness significantly improved the ductility and low-temperature impact toughness of steel sheets regardless of their thickness. Specifically, a total elongation increased by 3-6 points (up to 26-28 %); an absorbed impact energy (tested at -20 °C) - in 1.5-1.8 times (up to 300-370 J); the DWTT shear area (at -20 °C) - in 1.6-2.1 times (up to 81-91.7 %). The properties advancement under SSTR increase was associated with an additional refinement of ferrite grains and better homogenization of cast structure under deeper hot deformation.
ER