| Comparison of hydrogen embrittlement in three pipeline steels in high pressure gaseous hydrogen environments NE Nanninga, YS Levy, ES Drexler, RT Condon, AE Stevenson, AJ Slifka Corrosion Science 59, 1-9, 2012 | 298 | 2012 |
| Low thermal conductivity vapor deposited zirconia microstructures DD Hass, AJ Slifka, HNG Wadley Acta Materialia 49 (6), 973-983, 2001 | 241 | 2001 |
| Fatigue crack growth of two pipeline steels in a pressurized hydrogen environment AJ Slifka, ES Drexler, NE Nanninga, YS Levy, JD McColskey, RL Amaro, ... Corrosion Science 78, 313-321, 2014 | 149 | 2014 |
| A review of fatigue crack growth for pipeline steels exposed to hydrogen N Nanninga, A Slifka, Y Levy, C White Journal of research of the national institute of standards and technology …, 2010 | 144 | 2010 |
| Thermal conductivity of magnesium oxide from absolute, steady-state measurements AJ Slifka, BJ Filla, JM Phelps Journal of research of the National Institute of Standards and Technology …, 1998 | 144 | 1998 |
| Modeling the fatigue crack growth of X100 pipeline steel in gaseous hydrogen RL Amaro, N Rustagi, KO Findley, ES Drexler, AJ Slifka International Journal of Fatigue 59, 262-271, 2014 | 131 | 2014 |
| Hydrogen embrittlement in ferritic steels ML Martin, MJ Connolly, FW DelRio, AJ Slifka Applied physics reviews 7 (4), 2020 | 114 | 2020 |
| Thermal conductivity of a zirconia thermal barrier coating AJ Slifka, BJ Filla, JM Phelps, G Bancke, CC Berndt Journal of Thermal Spray Technology 7, 43-46, 1998 | 97 | 1998 |
| Characteristics and mechanisms of hydrogen-induced quasi-cleavage fracture of lath martensitic steel L Cho, PE Bradley, DS Lauria, ML Martin, MJ Connolly, JT Benzing, ... Acta materialia 206, 116635, 2021 | 87 | 2021 |
| Fatigue crack growth rates of API X70 pipeline steel in a pressurized hydrogen gas environment ES Drexler, AJ Slifka, RL Amaro, N Barbosa, DS Lauria, LE Hayden, ... Fatigue & Fracture of Engineering Materials & Structures 37 (5), 517-525, 2014 | 76 | 2014 |
| Fatigue measurement of pipeline steels for the application of transporting gaseous hydrogen AJ Slifka, ES Drexler, RL Amaro, LE Hayden, DG Stalheim, DS Lauria, ... Journal of Pressure Vessel Technology 140 (1), 011407, 2018 | 74 | 2018 |
| A microstructural hyperelastic model of pulmonary arteries under normo-and hypertensive conditions Y Zhang, ML Dunn, ES Drexler, CN McCowan, AJ Slifka, DD Ivy, ... Annals of biomedical engineering 33, 1042-1052, 2005 | 65 | 2005 |
| Fatigue crack growth modeling of pipeline steels in high pressure gaseous hydrogen RL Amaro, ES Drexler, AJ Slifka International Journal of Fatigue 62, 249-257, 2014 | 58 | 2014 |
| Stiffening of the extrapulmonary arteries from rats in chronic hypoxic pulmonary hypertension ES Drexler, JE Bischoff, AJ Slifka, CN McCowan, TP Quinn, R Shandas, ... Journal of Research of the National Institute of Standards and Technology …, 2008 | 53 | 2008 |
| Effects of hydrogen pressure and prior austenite grain size on the hydrogen embrittlement characteristics of a press-hardened martensitic steel L Cho, PE Bradley, DS Lauria, MJ Connolly, EJ Seo, KO Findley, ... international journal of hydrogen energy 46 (47), 24425-24439, 2021 | 50 | 2021 |
| In situ high energy X-ray diffraction measurement of strain and dislocation density ahead of crack tips grown in hydrogen M Connolly, M Martin, P Bradley, D Lauria, A Slifka, R Amaro, C Looney, ... Acta Materialia 180, 272-286, 2019 | 46 | 2019 |
| A uniaxial bioMEMS device for quantitative force-displacement measurements DB Serrell, TL Oreskovic, AJ Slifka, RL Mahajan, DS Finch Biomedical microdevices 9, 267-275, 2007 | 44 | 2007 |
| Matching index of refraction using a diethyl phthalate/ethanol solution for in vitro cardiovascular models P Miller, K Danielson, G Moody, A Slifka, E Drexler, J Hertzberg Experiments in fluids 41, 375-381, 2006 | 39 | 2006 |
| Development of a model for hydrogen-assisted fatigue crack growth of pipeline steel RL Amaro, RM White, CP Looney, ES Drexler, AJ Slifka Journal of Pressure Vessel Technology 140 (2), 021403, 2018 | 37 | 2018 |
| Thermal-conductivity apparatus for steady-state, comparative measurement of ceramic coatings AJ Slifka Journal of Research of the National Institute of Standards and Technology …, 2000 | 37 | 2000 |
