Strength, Hardness, and Ductility Evidence of Solid Solution Strengthening and Limited Hydrogen Embrittlement in the Alloy System Palladium-Copper (Cu wt. % 5–25)

Strength, Hardness, and Ductility Evidence of Solid Solution Strengthening and Limited Hydrogen Embrittlement in the Alloy System Palladium-Copper (Cu wt. % 5–25)

Strength, hardness, and ductility characteristics were determined for a series of palladium-copper alloys that compositionally vary from 5 to 25 weight percent copper. Alloy specimens subjected to vacuum annealing showed clear evidence of solid solution strengthening. These specimens showed, as a fu...

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Bibliographic Details
Main Authors: Sebastian DiMauro, Gabrielle Legall, Coleman Lubinsky, Monica Nadeau, Renee Tait, William Miller, Abena Adutwum, Isabella Portal, Brandon Roy, Steve Nesbit, Andrew Craft
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Hydrogen
Subjects:
palladium
copper
hydrogen
strength
hardness
ductility
Online Access:https://www.mdpi.com/2673-4141/2/3/14
Description
Summary:Strength, hardness, and ductility characteristics were determined for a series of palladium-copper alloys that compositionally vary from 5 to 25 weight percent copper. Alloy specimens subjected to vacuum annealing showed clear evidence of solid solution strengthening. These specimens showed, as a function of increasing copper content, increased yield strength, ultimate strength, and Vickers microhardness, while their ductility was little affected by compositional differences. Annealed alloy specimens subsequently subjected to exposure to hydrogen at 323 K and P<sub>H2</sub> = 1 atm showed evidence of hydrogen embrittlement up to a composition of ~15 wt. % Cu. The magnitude of the hydrogen embrittlement decreased with increasing copper content in the alloy.
ISSN:2673-4141

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