Follow
Markian Petkov
Title
Cited by
Cited by
Year
Comparison of self-consistent and crystal plasticity FE approaches for modelling the high-temperature deformation of 316H austenitic stainless steel
MP Petkov, J Hu, E Tarleton, ACF Cocks
International Journal of Solids and Structures 171, 54-80, 2019
362019
Self-consistent modelling of cyclic loading and relaxation in austenitic 316H stainless steel
MP Petkov, J Hu, ACF Cocks
Philosophical Magazine 99 (7), 789-834, 2019
192019
Evaluation of local stress state due to grain-boundary sliding during creep within a crystal plasticity finite element multi-scale framework
MP Petkov, E Elmukashfi, E Tarleton, ACF Cocks
International Journal of Mechanical Sciences 211, 106715, 2021
122021
Non-Conservatism of ASME BPVC Section III Division 5 Isochronous Stress–Strain Curves for 316H Stainless Steel at Low Stresses
M Petkov, GA Young, PA Juan
Journal of Pressure Vessel Technology 144 (6), 061506, 2022
52022
Creep-fatigue interactions in type 316H under typical high-temperature power plant operating conditions
MP Petkov, M Chevalier, D Dean, ACF Cocks
International Journal of Pressure Vessels and Piping 194, 104500, 2021
52021
Modelling microstructure evolution, creep deformation and damage in Type 316H stainless steel
M Petkov
University of Oxford, 2020
52020
Multi-scale modelling of creep cavity nucleation and growth in polycrystalline Type 316 stainless steel
MP Petkov, E Elmukashfi, ACF Cocks
Philosophical Magazine 102 (23), 2362-2411, 2022
42022
Continuum damage mechanics modeling of high-temperature flaw propagation: Application to creep crack growth in 316H standardized specimens and nuclear reactor components
AM Recuero, M Petkov, BW Spencer, PA Juan
Journal of Pressure Vessel Technology 145 (5), 051507, 2023
22023
Creep-cyclic deformation in high temperature power plant structural materials: Informing assessment procedures in industry via multi-scale physical modelling
M Petkov, M Chevalier, D Dean, A Cocks
2*
Creep-fatigue interactions in a polycrystalline structural material under typical high-temperature power plant operating conditions
M Petkov, M Chevalier, D Dean, ACF Cocks
arXiv preprint arXiv:2103.00320, 2021
12021
Application of C (t)-Integral Solutions in Extending ASME BPVC Section XI Division 2 Code Case N-934 for Transient Creep Crack Growth
M Petkov, M Messner
Journal of Pressure Vessel Technology 146 (5), 2024
2024
Revised creep fracture maps of Type 316 stainless steel and their mechanistic perspective
M Petkov, PA Juan
Engineering Failure Analysis 159, 108094, 2024
2024
Engineering-scale Modeling of High-Temperature Creep and Creep Crack Growth in Alloy 316H
A Martin Recuero, D Schwen, A Dahal, BW Spencer, M Petkov, PA Juan
Idaho National Laboratory (INL), Idaho Falls, ID (United States), 2023
2023
Practical considerations of the use of cross-weld and compact tension specimens’ creep data
MP Petkov, CJ Hyde, TH Hyde
The Journal of Strain Analysis for Engineering Design 51 (3), 179-206, 2016
2016
Validation of Assessment Methods for Creep Crack Growth Rates in Irradiated Components from Nimonic Pe16 Tie-Bar Tests
M Petkov, PA Juan
Available at SSRN 4884323, 0
The system can't perform the operation now. Try again later.
Articles 1–15