TY - JOUR A1 - Xue, Lufeng A1 - Keim, Vincent A1 - Paredes, M. A1 - Nonn, Aida A1 - Wierzbicki, Tomasz T1 - Anisotropic effects on crack propagation in pressurized line pipes under running ductile fracture scenarios T2 - Engineering fracture mechanics N2 - The current analyses present results of running ductile fracture propagation in high strength X100 line pipe steels under the influence of anisotropy. Mechanical anisotropy is commonly available in pipe products as a result of the manufacturing process, especially, those subjected to hot/cold-worked deformation. The outcomes of the present analyses show that its effect on the behavior of running ductile fracture in cracked pipes undergoing depressurization is meaningful. For instance, the Crack-Tip Opening Angle (CTOA) not only exhibits a strong dependence to the pipe's diameter size, but also to the material's anisotropy nature when compared to a hypothetical isotropic material. Moreover, laboratory scale tests such as those performed on Battelle Drop Weight Tear (BDWT) samples provide useful information about initiation of ductile crack propagation when the anisotropy features are taken into account in the material description. KW - BEHAVIOR KW - Fracture anisotropy KW - INITIATION KW - MODEL KW - Non-associated flow rule KW - PREDICTION KW - Rate dependent MMC Model KW - Running ductile fracture KW - STATE KW - STEEL KW - STRAIN-RATE KW - TOUGHNESS Y1 - 2021 UR - https://opus4.kobv.de/opus4-oth-regensburg/frontdoor/index/index/docId/2629 VL - 249 PB - Elsevier ER -