Experimental measurements of the strength of metals approaching the theoretical limit predicted by the equation of state - Concepedia

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Experimental measurements of the strength of metals approaching the theoretical limit predicted by the equation of state

91

Citations

9

References

2000

Year

E. Moshe, S. Eliezer, Z. Henis, M. Werdiger, E. Dekel, Y. Horovitz, S. Maman, Ira B. Goldberg, D. Eliezer

Applied Physics Letters

EngineeringMechanical EngineeringLaser ApplicationsTheoretical LimitMetallurgical SystemHigh-power LasersStructural MaterialsStrength PropertySolid State MechanicsMaterials ScienceUltimate StrengthPhysicsExperimental MeasurementsMetallurgical InteractionAtomic PhysicsLaser Processing TechnologySolid MechanicsElemental MetalMicrostructureVelocity Interferometer SystemShock WavesAdvanced Laser ProcessingDynamic Constitutive BehaviorExplosion WeldingLaser-induced BreakdownMaterials CharacterizationCondensed Matter PhysicsApplied PhysicsMaterial ModelingLaser-surface InteractionsMechanics Of MaterialsLaser Damage

Abstract

The approach to the ultimate strength of metals is determined experimentally. The ultimate strength of metals was calculated using a realistic wide-range equation of state. The strength of metals was measured using shock waves created in aluminum and copper foils with a short- (20–100 ps) pulse high-power laser. The strength of the materials was determined from the free-surface-velocity time history, which was measured with an optically recording velocity interferometer system. The strain rates in these experiments were in the range (1.5–5)×108 s−1.

References

	Year	Citations

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