The role of hydrogen-exposure temperature on the mechanical properties of hydrogen-cycled palladium

The role of hydrogen-exposure temperature on the mechanical properties of hydrogen-cycled palladium. Jimenez, G., Dillon, E., Miller, R., Massicotte, F., Nesbit, S., & Craft, A. Scripta Materialia, 59(8):870–873, October, 2008. 00015 tex.ids= JIMENEZ2008a, Jimenez2008
doi abstract bibtex

Changes in the mechanical properties of palladium that has undergone a cycle of hydride formation and decomposition in the temperature range 323–623K have been characterized. The results show that at all temperatures studied cycling increases the strength and hardness of palladium while decreasing ductility, compared to well-annealed palladium. The extent of the changes in mechanical properties has been found to be essentially independent of cycling temperature up to 473K and dependent on cycling temperature above 473K.

@article{jimenez_role_2008,
	title = {The role of hydrogen-exposure temperature on the mechanical properties of hydrogen-cycled palladium},
	volume = {59},
	issn = {1359-6462},
	doi = {10/dpd5d4},
	abstract = {Changes in the mechanical properties of palladium that has undergone a cycle of hydride formation and decomposition in the temperature range 323–623K have been characterized. The results show that at all temperatures studied cycling increases the strength and hardness of palladium while decreasing ductility, compared to well-annealed palladium. The extent of the changes in mechanical properties has been found to be essentially independent of cycling temperature up to 473K and dependent on cycling temperature above 473K.},
	number = {8},
	journal = {Scripta Materialia},
	author = {Jimenez, Gilberto and Dillon, Erik and Miller, Raymond and Massicotte, Fred and Nesbit, Steven and Craft, Andrew},
	month = oct,
	year = {2008},
	note = {00015
tex.ids= JIMENEZ2008a, Jimenez2008},
	pages = {870--873},
}

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