Abdullah S. Alomari
King Abdulaziz City for Science and Technology
Ultimate tensile strengthDynamic strain agingEmbrittlementDeformation (engineering)Strain rateCreepStrain hardening exponentDislocationComposite materialAmplitudeTensile testingMetallurgyMaterials scienceStructural materialStress relaxationDeformation (meteorology)Deformation mechanismDamage toleranceWork hardeningAustenitic stainless steelLow-cycle fatigueAlloyPressurized water reactorHold timeCreep fatigueElongationZirconium alloyCladding (metalworking)MicromechanicsReliability (statistics)Grain boundarySodiumNuclear reactorDuctilityStrain (chemistry)Forensic engineeringStress (mechanics)Activation energyAustenite
Publications 11
#1Nilesh Kumar (NCSU: North Carolina State University)H-Index: 18
#2Abdullah S. Alomari (NCSU: North Carolina State University)H-Index: 4
Last. Korukonda L. Murty (NCSU: North Carolina State University)H-Index: 27
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It is essential to understand basic deformation mechanism(s) of conventional alloys in order to develop improved or novel alloys for their applications in much more challenging conditions. Zircaloy-4 is extensively used in pressurized water reactor for nuclear fuel cladding application. It operates at very high temperature in the presence of mechanical loads, corrosive atmosphere, and neutron irradiation environment. Present work explores the fundamental plastic deformation mechanism(s) of Zirca...