Publications

Group Publications

2021

  • Harris ZD, Guiseva K, Scully JR, Burns JT, "A On the hydrogen environment-assisted cracking resistance of a compositionally complex Co – Ni – Cr – Fe – Mo – Ti alloy" Mater Sci Eng A. 2021;802:140601. 
  • Harris ZD, Dubas EM, Popernack AS, Somerday BP, Burns JT, "Elucidating the loading rate dependence of hydrogen environment-assisted cracking in a Ni-Cu superalloy. " Theoretical and Applied Fracture Mechanics. 2021;111:102846.
  • Brown LB, Jones Jl, Warner Locke JS, Burns JT, "Effect of low temperature, low water vapor pressure environments on the fatigue behavior of an Al-Li aerospace alloy" International Journal of Fatigue. 2021;148:106215.
  • Co NEC, Burns JT, "Effects of micro-scale corrosion damage features and local microstructure on fatigue crack initiation location" Internation Journal of Fatigue. 2021;150:106301.
  • Harris, ZD, Burns JT, "The Effect of Loading Rate on the Environment-Assisted Cracking Behavior of AA7075-T651 in Aqueous NaCl Solution" Corrosion and Material Degradation. 2021;2:360-375

2020

  • Harris ZD, Bhattacharyya JJ, Ronevich JA, Agnew SR, Burns JT. Acta Materialia The combined effects of hydrogen and aging condition on the deformation and fracture behavior of a precipitation-hardened nickel-base superalloy. 2020;186:616–30. 
  • Harris ZD, Thompson AW, Burns JT. Multiscale Assessment of Deformation Induced by Hydrogen Environment-Assisted Cracking in a Peak-Aged Ni-Cu Superalloy. JOM. 2020;72(5):1993–2002. 
  • Mcmahon ME, Haines RL, Steiner PJ, Schulte JM, Fakler SE, Burns JT. Beta phase distribution in Al-Mg alloys of varying composition and temper. Corros Sci. 2020;169:108618. 
  • McMahon ME, Burns JT, Scully JR. The influence of Zn2+ on stress corrosion cracking severity in a highly sensitised Al–Mg alloy. Corros Eng Sci Technol. 2020;55(4):331–40. 
  • Chan KS, Burns JT, Enright MP, Moody J, Goodrum W. Validation of Hot Corrosion and Fatigue Models in HOTPITS. 2020;142:1–11. 
  • Harris ZD, Dubas EM, Schrock DJ, Warner JS, Burns T. Materials Science & Engineering A Assessing the fatigue crack growth behavior of highly sensitized AA5456-H116 under cathodic polarization. Mater Sci Eng A. 2020;792:139792. 
  • Harris ZD, Dubas EM, Popernack AS, Somerday BP, Burns JT. Elucidating the loading rate dependence of hydrogen environment-assisted cracking in a Ni-Cu superalloy. Theor Appl Fract Mech. 2020;102846. 
  • Martínez-Pañeda E, Harris ZD, Fuentes-Alonso S, Scully JR, Burns JT. On the suitability of slow strain rate tensile testing for assessing hydrogen embrittlement susceptibility. Corros Sci. 2020;163:108291. 

2019

  • Thompson AW, Harris ZD, and Burns JT, “Examination of focused ion beam-induced damage during platinum deposition in the near-surface region of an aerospace aluminum alloy”, Micron2019: 43-49.
  • McMurtrey MD, Mills DE, and Burns JT, “The effect of pit size and density on the fatigue behavior of a precorroded martensitic stainless steel”, Fat. Fract. Eng. Mat. Struct.2019: 42; 3-18.
  • McMahon ME, Burns JT, Scully JR. Development of new criteria for evaluating the effectiveness of Zn-rich primers in protecting Al-Mg alloys. Prog Org Coatings. 2019;135:392–409. 
  • Harris ZD, Burns JT. The effect of isothermal heat treatment on hydrogen environment-assisted cracking susceptibility in Monel K-500. Mater Sci Eng A. 2019;764. 
  • Nicolas A, Co NEC, Burns JT, Sangid MD. Predicting fatigue crack initiation from coupled microstructure and corrosion morphology effects. Eng Fract Mech. 2019;220. 
  • McMahon ME, Scully JR, Burns JT. Mitigation of Intergranular Cracking in Al-Mg Alloys via Zn-Based Electrode Potential Control in Sodium Chloride Solution. Corrosion. 2019;75(8):911–28. 
  • Brown N, Clark B, Kramer P, Co NEC, Friedersdorf F, Burns JT. Corrosion modified fatigue analysis for next-generation damage-tolerant management. Corros Rev. 2019;37(5):507–20. 

2018

  • Steiner PJ and Burns JT, “Mechanistic Studies of Intergranular Stress Corrosion Cracking in Al-Mg Alloys under Atmospheric Exposure Conditions”, Corrosion2018: 74; 1117-1131.
  • Harris ZD, Lawrence SK, Medlin DL, Guetard G, Burns JT, and Somerday BP, “Elucidating the contribution of mobile hydrogen-deformation interactions to hydrogen-induced intergranular cracking in polycrystalline nickel”, Acta Materialia2018: 158; 180-192.
  • Co NEC, Brown DE, and Burns JT, “Data-Science Analysis of the Macro-scale Features Governing the Corrosion to Crack Transition in AA7050-T7451”, JOM2018: 70; 1168-1174.
  • Jones JJ, McMurtrey MD, Brown LB, and Burns JT, “The effect of crack wake roughness on the environmentally assisted fatigue behavior of aerospace Al-alloy in low moisture environments”, Eng. Fract. Mech.2018: 199; 343-357.
  • Burns JT, Jones JJ, Thompson AW, and Warner-Locke JS, “Fatigue crack propagation of aerospace aluminum alloy 7075-T651 in high altitude environments”, Int. J. Fatigue2018: 106; 196-207.

2017

  • Donahue JR, Lass AB, and Burns JT, “The interaction of corrosion fatigue and stress corrosion cracking in a precipitation-hardened martensitic stainless steel”, Nature Materials Degradation2017: 1; Article 11.
  • Rincon Troconis BC, Harris ZD, Ha HM, Burns JT, and Scully JR, “The effect of heat-to-heat variations in metallurgy and hydrogen-metal interactions on the hydrogen embrittlement of Monel K-500”, Mater. Sci. Eng. A2017: 703; 533-550.
  • McMahon ME, Scully JR, and Burns JT, “Mitigation of intergranular stress corrosion cracking in Al-Mg by electrochemical potential control”, JOM-US2017: 69; 1389-1397.
  • Co NEC and Burns JT, “Effects of macro-scale corrosion damage feature on fatigue crack initiation and fatigue behaviors”, Int. J. Fatigue2017: 103; 234-247.
  • McMurtrey MD, Bae D, and Burns JT, “Fracture mechanics modeling of constant- and variable amplitude fatigue behavior of field corroded 7075-T6511 aluminum”, Fat. Fract. Eng. Mater. Struct.2017: 40; 605-622.
  • McMahon ME, Steiner PJ, Lass AB, and Burns JT, “The Effect of Loading Orientation on the Stress Corrosion Cracking of Al-Mg Alloys”, CORROSION2016: 73; 713-723.
  • McMahon ME, Steiner PJ, Lass AB, and Burns JT, “The Effect of Temper and Composition on the Stress Corrosion Cracking of Al-Mg Alloys”, CORROSION2016: 73; 347-361.

2016

  • Donahue JR and Burns JT, “Effect of chloride concentration on the corrosion-fatigue crack behavior of an age-hardenable martensitic stainless steel”, Int. J. Fatigue2016: 91 ; 79-99.
  • Donahue JR and Burns JT, “Effect of chloride concentration on the corrosion-fatigue crack behavior of an age-hardenable martensitic stainless steel”, Int. J. Fatigue2016: 91 ; 79-99.
  • Co NE and Burns JT, “Galvanic corrosion-induced fatigue crack initiation and propagation behavior in AA7050-T7451”, CORROSION2016: 72; 1215-1219.
  • Harris ZD, Dolph JD, Pioszak GL, Rincon Troconis BC, Scully JR, Burns JT, “The Effect of Microstructure Variation on the Hydrogen Environment-Assisted Cracking of Monel K-500”, Metall. Mater. Trans. A.2016: 47; 3488-3510.
  • Burns JT, Harris ZD, Dolph JD, Gangloff RP, “Measurement and modeling of hydrogen environment assisted cracking in Ni-Cu-Al-Ti superalloy”, Metall. Mater. Trans. A.2016: 47; 990-997.
  • Burns JT, Boselli J, “Effect of plate thickness on the environmental fatigue crack growth behavior of 7085-T7451”, International Journal of Fatigue2016: 83; 253-268.

2015

  • Burns JT, Bush RW, Ai J, Jones JL, Lee Y, Gangloff RP, “Effect of water vapor pressure on fatigue crack growth in Al-Zn-Cu-Mg alloy over wide-range stress intensity factor loading”, Eng. Fract. Mech.2015: 137; 34-55.

2014

  • Gangloff RP, Ha H, Burns JT, Scully JR, “Measurement and modeling of hydrogen environment assisted cracking in Monel K-500”, Metall. Mater. Trans. A2014: 45 (9); 3814-3834.

2013

  • Burns JT, Gupta VK, Agnew SR, Gangloff RP, “Effect of low temperature on fatigue crack formation and microstructure scale crack propagation in legacy and modern Al-Zn-Mg-Cu”, International Journal of Fatigue2013: 55; 268-275.
  • Burns JT, Gangloff RP, “Effect of low temperature on fatigue crack formation and microstructure-scale growth from corrosion damage in Al-Zn-Mg-Cu”, Metall. Mater. Trans. A2013: 44A; 2083-2105.

2012

  • Burns JT, Larsen JM, Gangloff RP, “Effect of initiation feature on microstructure-scale fatigue crack propagation in Al-Zn-Mg-Cu”, International Journal of Fatigue2012: 42; 104-121.

2011

  • Burns JT, Larsen JM, Gangloff RP, “Driving forces for localized corrosion to fatigue crack transition in Al-Zn-Mg-Cu”, Fatigue and Fracture of Engineering Materials and Structures2011: 34; 745-773.
  • Burns JT, Gangloff RP, “Scientific advances enabling next generation management of corrosion induced fatigue”, Procedia Engineering – ICM 112011: 10; 362-369

2010

  • Burns JT, Kim S, Gangloff RP, “Effect of corrosion severity on fatigue evolution in Al-Zn-Mg-Cu”, Corrosion Science2010: 52; 498-508

2009

  • Kim S, Burns JT, Gangloff RP, “Fatigue crack formation and growth from localized corrosion in Al-Zn-Mg-Cu”, Journal of Engineering Fracture Mechanics2009: 76 (5); 651-667.

2018

  • McMahon ME, Scully JR, and Burns JT, “Mitigation of hydrogen-induced intergranular cracking in Al-Mg alloys using various methods of electrochemical potential control,” Proceedings of the Third International Conference on Metals and Hydrogen, 2018.
  • Harris ZD and Burns JT, “The effect of heat treatment variation on hydrogen environment assisted cracking susceptibility in a precipitation-hardened Ni-Cu superalloy,” Proceedings of the Third International Conference on Metals and Hydrogen, 2018.

2017

  • Harris ZD and Burns JT, “The Effect of Grain Boundary Sulfur on Hydrogen Environment-Assisted Cracking of Monel K-500,” Proceedings of NACE DoD Corrosion Conference, NACE International, 2017.
  • Co NE, Nicolas A, Sangid MD, and Burns JT, “Effect of corrosion micro-scale features and alloy microstructure on the fatigue initiation and crack growth of AA7050-T7451,” Proceedings of NACE DoD Corrosion Conference, NACE International, 2017.
  • Dey A, Tryon R, Kulkarni K, French N, Kelly RG, and Burns JT, “Predictive condition based maintenance software for managing corrosion prevention on naval systems,” Proceedings of NACE DoD Corrosion Conference, NACE International, 2017.

2016

  • Harris ZH, Lawrence SK, Guetard G, Burns JT, and Somerday BP, “The Influence of Deformation Temperature on the Initiation of Hydrogen-Induced Intergranular Cracking in Nickel,” in: Material Performance in Hydrogen Environments: Proceedings of the 2016 International Hydrogen Conference, 2016.
  • Harris ZD and Burns JT, “The Effect of Heat Treatment on Hydrogen Environment-Assisted Cracking of Monel K-500,” in: Material Performance in Hydrogen Environments: Proceedings of the 2016 International Hydrogen Conference, 2016.

2015

  • McMurtrey MD, Jones JL, Burns JT, “Effect of high altitude environments on fatigue crack propagation rates in aerospace aluminum alloys,” Proceedings of NACE DoD Corrosion Conference, NACE International, 2015.
  • McMurtrey MD, Burns JT, “Corrosion effects on the initiation life and crack growth rate of 7075-T6511 aluminum,” in: Proceedings of NACE DoD Corrosion Conference, NACE International, 2015.

2013

  • Burns JT, “Effect of water vapor pressure on the fatigue crack propagation of aerospace aluminum alloys 7075-T651 and 2199-T86” in: Proceedings of NACE DoD Corrosion Conference, NACE International, 2013.

2011

  • Burns JT, Bush RW, Gangloff RP, “The effect of environment on corrosion induced fatigue crack formation and early propagation in Al 7075-T651” in: Proceedings of NACE DoD Corrosion Conference, NACE International, La Quinta, CA, 2011

2013

  • Jones J, Burns JT, “Effect of high altitude (low temperature and water vapor pressure) environments on fatigue crack propagation rates in aerospace aluminum alloys” in: Proceedings of 13th International ASTM/ESIS Symposium on Fatigue and Fracture Mechanics (Jacksonville, FL), ASTM International.

2005

  • Li D, Burns JT, Bush R, Garratt M, Hinkle A, Mills T, Marks C. Moran J, Scully JR, Gangloff RP, “Characterization of corrosion-fatigue interaction for aluminum alloy substitution” in: Proceedings of 8th NASA/FAA/DoD Conference on Aging Aircraft, Ed. Young RD

Accepted

  • Burns JT, “Chapter 5: Environment enhanced fatigue,” in: Shifler D, Ed. Marine Corrosion: Causes and Prevention, J Wiley & Sons, New York, NY: accepted.

2015

  • Burns JT, Kelly RG, “Role of grain orientation, alloy composition/heat-treatment, and atmospheric conditions on the rates of intergranular corrosion and stress corrosion cracking”, ONR Contract #N00014-13-1-0741.

2014

  • Burns JT, Gangloff RP, Waldman WE, “Development of corrosion-hydrogen crack resistant aircraft alloys from mechanistic understanding”, US Navy Contract #68335-09-0378.