TY - GEN
T1 - Reliability analysis of low alloy ferritic piping materials
AU - Guedri, A.
AU - Merzoug, B.
AU - Khaleel, Moe
AU - Zeghloul, A.
PY - 2009
Y1 - 2009
N2 - The aim of this study is to improving microstructure and mechanical properties of the weldable gas pipeline steel using laboratory mill. To achieve the required microstructure and mechanical properties of thermo mechanically processed HSLA steels, it is necessary to have an idea about the role of composition and process parameters. The large numbers of parameters obtained during the production process in the plant were systematically changed to optimize the strength and toughness properties. The optimized parameters were used for the production of the API X60/X70 steel. However, the controlled cooling after rolling should result in transformed products that provide excellent combination of strength and toughness. The coiling at an appropriate temperature have the advantage of the precipitation strengthening, giving further rise to the high yield strength and also improvement in toughness of the steel. The coiling temperature is a decisive parameter because it determines the beginning of the formation of fine precipitations. Therefore, four different laboratory cooling systems were used, in this study to simulate the rolling conditions of a real industrial Thermomechanically controlled process, as close as possible and to check the possibilities of improving the mechanical properties of the welded pipeline steel.
AB - The aim of this study is to improving microstructure and mechanical properties of the weldable gas pipeline steel using laboratory mill. To achieve the required microstructure and mechanical properties of thermo mechanically processed HSLA steels, it is necessary to have an idea about the role of composition and process parameters. The large numbers of parameters obtained during the production process in the plant were systematically changed to optimize the strength and toughness properties. The optimized parameters were used for the production of the API X60/X70 steel. However, the controlled cooling after rolling should result in transformed products that provide excellent combination of strength and toughness. The coiling at an appropriate temperature have the advantage of the precipitation strengthening, giving further rise to the high yield strength and also improvement in toughness of the steel. The coiling temperature is a decisive parameter because it determines the beginning of the formation of fine precipitations. Therefore, four different laboratory cooling systems were used, in this study to simulate the rolling conditions of a real industrial Thermomechanically controlled process, as close as possible and to check the possibilities of improving the mechanical properties of the welded pipeline steel.
KW - Controlled cooling
KW - Controlled rolling
KW - Mechanical properties
KW - Micro alloying
KW - Processing parameters
KW - TMCP
UR - https://www.scopus.com/pages/publications/84883508252
U2 - 10.1007/978-90-481-2669-9_4
DO - 10.1007/978-90-481-2669-9_4
M3 - Conference contribution
AN - SCOPUS:84883508252
SN - 9789048126682
T3 - Damage and Fracture Mechanics: Failure Analysis of Engineering Materials and Structures
SP - 33
EP - 42
BT - Damage and Fracture Mechanics
PB - Kluwer Academic Publishers
T2 - 1st African InterQuadrennial ICF Conference on Damage and Fracture Mechanics - Failure Analysis of Engineering Materials and Structures, AIQ-ICF 2008
Y2 - 1 June 2008 through 5 June 2008
ER -