C.R. Heiple scite author profile

Acoustic emission produced by the fracture of boron particles in 2219 aluminum during tensile deformation was measured and characterized. The boron particles were introduced into the aluminum using a powder metallurgy approach. The response of an rms voltmeter to individual acoustic emission bursts was found to be proportional to the energy of the burst (integral of the squared signal voltage). The energy released by fracture of the boron particles was estimated from elasticity theory using measured diameters of the individual fractures. The energy of the acoustic emission signals produced by boron particle fracture was found to be proportional to the energy released by the particle fractures. This relation can be used to estimate the energy released by other comparable acoustic emission sources in samples of similar geometry from their acoustic emission signals.

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A New, Low-Temperature Synthesis of Plutonium and Uranium Nitrides

Cleveland

Bryan

Heiple

et al. 1975

Nuclear Technology

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Investigation of black spots and other blemishes inside small stainless steel pressure vessels

Heiple¹,

Doyle²,

Burgardt³

1990

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Acoustic emission from low temperature phase transformations in plutonium

Heiple

Carpenter

1987

Journal of Nuclear Materials

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C.R. Heiple

The Geometry of Gas Tungsten Arc, Gas Metal Arc, and Submerged Arc Weld Beads

A Calibration Source for Acoustic Emission Analysis

A New, Low-Temperature Synthesis of Plutonium and Uranium Nitrides

Investigation of black spots and other blemishes inside small stainless steel pressure vessels

Acoustic emission from low temperature phase transformations in plutonium

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