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The last 5 uploaded publications
Grain-boundary engineering markedly reduces susceptibility to intergranular hydrogen embrittlement in metallic materials
Sabine Bechtle, Mukul Kumar, Brian P. Somerday, Maximilien E. Launey, Robert O. Ritchie (2009). Grain-boundary engineering markedly reduces susceptibility to intergranular hydrogen embrittlement in metallic materials. Acta Materialia, 57(14), pp. 4148-4157, DOI: 10.1016/j.actamat.2009.05.012.
Article330 days agoHigh-cycle fatigue of nickel-based superalloy ME3 at ambient and elevated temperatures: Role of grain-boundary engineering
Yong Gao, Robert O. Ritchie, Mukul Kumar, R.K. Nalla (2005). High-cycle fatigue of nickel-based superalloy ME3 at ambient and elevated temperatures: Role of grain-boundary engineering. Metallurgical and Materials Transactions A, 36(12), pp. 3325-3333, DOI: 10.1007/s11661-005-0007-5.
Article291 days agoHigh-cycle fatigue of nickel-base superalloy René 104 (ME3): Interaction of microstructurally small cracks with grain boundaries of known character
Yong Gao, J. S. Stölken, Mukul Kumar, Robert O. Ritchie (2007). High-cycle fatigue of nickel-base superalloy René 104 (ME3): Interaction of microstructurally small cracks with grain boundaries of known character. Acta Materialia, 55(9), pp. 3155-3167, DOI: 10.1016/j.actamat.2007.01.033.
Article291 days agoA Study on the Role of Grain-Boundary Engineering in Promoting High-Cycle Fatigue Resistance and Improving Reliability in Metallic Alloys for Propulsion Systems
Robert O. Ritchie, Mukul Kumar (2005). A Study on the Role of Grain-Boundary Engineering in Promoting High-Cycle Fatigue Resistance and Improving Reliability in Metallic Alloys for Propulsion Systems. , DOI: https://doi.org/10.21236/ada456825.
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