M.Y. Lee scite author profile

The static and dynamic compaction of ceramic powders was investigated experimentally using a high-pressure frictioncompensated press to achieve static stresses of 1.6 GPa and with a novel gas gun setup to stresses of 5.9 GPa for a tungsten carbide powder. Experiments were performed in the partial compaction region to nearly full compaction. The effects of variables including initial density, particle size distribution, particle morphology, and loading path were investigated in the static experiments. Only particle morphology was found to significantly affect the compaction response. Post-test examination of the powder reveals fracture of the grains as well as breaking at particle edges. In dynamic experiments, steady structured compaction waves traveling at very low velocities were observed. The strain rate within the compaction waves was found to scale nearly linearly with the shock stress, in contrast with many fully dense materials where strain rate scales with stress to the fourth power. Similar scaling is found for data from the literature on TiO 2 powder. The dynamic response of WC powder is found to be significantly stiffer than the static response, probably because deformation in the dynamic case is confined to the relatively narrow compaction wave front. Comparison of new static powder compaction results with shock data from the literature for SiO 2 also reveals a stiffer dynamic response.

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Statistical evaluation of hydraulic fracturing stress measurement parameters

Lee

Haimson

1989

International Journal of Rock Mechanics and Mining Sciences &am

100

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Measurement of rock stress using the hydraulic fracturing method in Cornwall, U.K.—Part II. Data reduction and stress calculation

Haimson

Tunbridge

Lee

et al. 1989

International Journal of Rock Mechanics and Mining Sciences &am

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Development of radial strains in hollow cylinders of rock subjected to radial compression

Talesnick

Haimson

Lee

1997

International Journal of Rock Mechanics and Mining Sciences

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Applicability of net section collapse load approach to assessment of pipes with multiple circumferential cracks

Lee

Kim

Jeon

et al. 2014

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M.Y. Lee

Static and dynamic compaction of ceramic powders

Statistical evaluation of hydraulic fracturing stress measurement parameters

Measurement of rock stress using the hydraulic fracturing method in Cornwall, U.K.—Part II. Data reduction and stress calculation

Development of radial strains in hollow cylinders of rock subjected to radial compression

Applicability of net section collapse load approach to assessment of pipes with multiple circumferential cracks

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