Publikationen von Dong Wang

Lu, X.; Ma, Y.; Wang, D.; Gao, L.; Song, W.; Qiao, L.; Johnsen, R.: Unravelling the effect of F phase on hydrogen-assisted intergranular cracking in nickel-based Alloy 725: Experimental and DFT study. Corrosion Science 225, 111569 (2023)

Lu, X.; Ma, Y.; Johnsen, R.; Wang, D.: In situ nanomechanical characterization of hydrogen effects on nickel-based alloy 725 under different metallurgical conditions. Journal of Materials Science & Technology 135, S. 156 - 169 (2023)

Dong, X.; Wang, D.; Prithiv, T. S.; Tehranchi, A.; Ponge, D.; Sun, B.: Hydrogen-associated decohesion and localized plasticity in a high-Mn and high-Al two-phase lightweight steel. Acta Materialia 239, 118296 (2022)

Wang, D.; Lu, X.; Lin, M.; Wan, D.; Li, Z.; He, J.; Johnsen, R.: Understanding the hydrogen effect on pop-in behavior of an equiatomic high-entropy alloy during in-situ nanoindentation. Journal of Materials Science & Technology 98, S. 118 - 122 (2022)

Wan, D.; Ma, Y.; Sun, B.; Razavi, S. M. J.; Wang, D.; Lu, X.; Song, W.: Evaluation of hydrogen effect on the fatigue crack growth behavior of medium-Mn steels via in-situ hydrogen plasma charging in an environmental scanning electron microscope. Journal of Materials Science & Technology 85, S. 30 - 43 (2021)

Sun, B.; Wang, D.; Lu, X.; Wan, D.; Zhang, X.: Current Challenges and Opportunities Toward Understanding Hydrogen Embrittlement Mechanisms in Advanced High-Strength Steels: A Review. Acta Metallurgica Sinica (English Letters) 34, S. 741 - 754 (2021)

Lu, X.; Ma, Y.; Wang, D.: On the hydrogen embrittlement behavior of nickel-based alloys: Alloys 718 and 725. Materials Science and Engineering A: Structural Materials Properties Microstructure and Processing 792, 139785 (2020)

Wang, D.; Lu, X.; Wan, D.; Li, Z.; Barnoush, A.: In-situ observation of martensitic transformation in an interstitial metastable high-entropy alloy during cathodic hydrogen charging. Scripta Materialia 173, S. 56 - 60 (2019)

Wang, D.; Lu, X.; Deng, Y.; Wan, D.; Li, Z.; Barnoush, A.: Effect of hydrogen-induced surface steps on the nanomechanical behavior of a CoCrFeMnNi high-entropy alloy revealed by in-situ electrochemical nanoindentation. Intermetallics 114, 106605 (2019)

Lu, X.; Wang, D.; Li, Z.; Deng, Y.; Barnoush, A.: Hydrogen susceptibility of an interstitial equimolar high-entropy alloy revealed by in-situ electrochemical microcantilever bending test. Materials Science and Engineering A: Structural Materials Properties Microstructure and Processing 762, 138114 (2019)