@article{oai:kyutech.repo.nii.ac.jp:00006953,
 author = {Král,  Petr and Dvořák,  Jiří and Blum,  Wolfgang and Sklenička,  Václav and Horita, Zenji and 堀田, 善治 and Takizawa,  Yoichi and Tang,  Yongpeng and Kunčická,  Lenka and Kocich,  Radim and Kvapilová,  Marie and Svobodová,  Marie},
 issue = {23},
 journal = {Materials},
 month = {Nov},
 note = {Martensitic creep-resistant P92 steel was deformed by different methods of severe plastic deformation such as rotation swaging, high-pressure sliding, and high-pressure torsion at room temperature. These methods imposed significantly different equivalent plastic strains of about 1–30. It was found that rotation swaging led to formation of heterogeneous microstructures with elongated grains where low-angle grain boundaries predominated. Other methods led to formation of ultrafine-grained (UFG) microstructures with high frequency of high-angle grain boundaries. Constant load tensile creep tests at 873 K and initial stresses in the range of 50 to 300 MPa revealed that the specimens processed by rotation swaging exhibited one order of magnitude lower minimum creep rate compared to standard P92 steel. By contrast, UFG P92 steel is significantly softer than standard P92 steel, but differences in their strengths decrease with increasing stress. Microstructural results suggest that creep behavior of P92 steel processed by severe plastic deformation is influenced by the frequency of high-angle grain boundaries and grain coarsening during creep.},
 pages = {5330-1--5330-17},
 title = {The Effect of Predeformation on Creep Strength of 9% Cr Steel},
 volume = {13},
 year = {2020},
 yomi = {ホリタ, ゼンジ}
}