| Key issues related to modelling of internal corrosion of oil and gas pipelines–A review S Nešić Corrosion science 49 (12), 4308-4338, 2007 | 1478 | 2007 |
| An electrochemical model for prediction of corrosion of mild steel in aqueous carbon dioxide solutions S Nesic, J Postlethwaite, S Olsen Corrosion 52 (4), 280-294, 1996 | 892 | 1996 |
| A mechanistic model for carbon dioxide corrosion of mild steel in the presence of protective iron carbonate filmspart 1: theory and verification M Nordsveen, SNR Nyborg, A Stangeland Corrosion 59 (05), 2003 | 608 | 2003 |
| A mechanistic model for carbon dioxide corrosion of mild steel in the presence of protective iron carbonate films—part 3: film growth model S Nešic, KLJ Lee Corrosion 59 (7), 616-628, 2003 | 476* | 2003 |
| Evolution of dissolution processes at the interface of carbon steel corroding in a CO2 environment studied by EIS F Farelas, M Galicia, B Brown, S Nesic, H Castaneda Corrosion Science 52 (2), 509-517, 2010 | 413 | 2010 |
| Role of conductive corrosion products in the protectiveness of corrosion layers JL Crolet, N Thevenot, S Nesic Corrosion 54 (3), 194-203, 1998 | 340 | 1998 |
| Effect of Impurities on the Corrosion Behavior of CO2 Transmission Pipeline Steel in Supercritical CO2−Water Environments YS Choi, S Nesic, D Young Environmental science & technology 44 (23), 9233-9238, 2010 | 316 | 2010 |
| Effect of H2S on the CO2 corrosion of carbon steel in acidic solutions YS Choi, S Nesic, S Ling Electrochimica Acta 56 (4), 1752-1760, 2011 | 284 | 2011 |
| The effect of temperature and ionic strength on iron carbonate (FeCO3) solubility limit W Sun, S Nešić, RC Woollam Corrosion Science 51 (6), 1273-1276, 2009 | 257 | 2009 |
| Determining the corrosive potential of CO2 transport pipeline in high pCO2–water environments YS Choi, S Nešić International Journal of Greenhouse Gas Control 5 (4), 788-797, 2011 | 242 | 2011 |
| Comparison of the rotating cylinder and pipe flow tests for flow-sensitive carbon dioxide corrosion S Nešic, GT Solvi, J Enerhaug Corrosion 51 (10), 773-787, 1995 | 232 | 1995 |
| Erosion–corrosion and synergistic effects in disturbed liquid-particle flow R Malka, S Nešić, DA Gulino Wear 262 (7-8), 791-799, 2007 | 209 | 2007 |
| A mechanistic model of H2S corrosion of mild steel W Sun, S Nesic NACE corrosion, NACE-07655, 2007 | 197 | 2007 |
| Mechanistic modeling for CO2 corrosion with protective iron carbonate films S Nesic, R Nyborg, A Stangeland, M Nordsveen NACE CORROSION, NACE-01040, 2001 | 194 | 2001 |
| Modeling of uniform CO2 corrosion of mild steel in gas transportation systems: a review A Kahyarian, M Singer, S Nesic Journal of Natural Gas Science and Engineering 29, 530-549, 2016 | 192 | 2016 |
| Electrochemical Study and Modeling of H2S Corrosion of Mild Steel Y Zheng, B Brown, S Nešić Corrosion 70 (4), 351-365, 2014 | 190 | 2014 |
| Investigation of carbon dioxide corrosion of mild steel in the presence of acetic acid—part 1: basic mechanisms KS George, S Nešic Corrosion 63 (2), 178-186, 2007 | 177 | 2007 |
| Electrochemical properties of iron dissolution in the presence of CO2-basics revisited S Nesic, N Thevenot, JL Crolet, D Drazic NACE CORROSION, NACE-96003, 1996 | 166 | 1996 |
| Kinetics of corrosion layer formation: part 1—iron carbonate layers in carbon dioxide corrosion W Sun, S Nešic Corrosion 64 (4), 334-346, 2008 | 160 | 2008 |
| Inhibition properties of self-assembled corrosion inhibitor talloil diethylenetriamine imidazoline for mild steel corrosion in chloride solution saturated with carbon dioxide I Jevremović, M Singer, S Nešić, V Mišković-Stanković Corrosion Science 77, 265-272, 2013 | 158 | 2013 |
David YoungInstitute for Corrosion & Multiphase Technology, Ohio University在 ohio.edu 的电子邮件经过验证
