The strength of nanoporous gold:: strain gradient and intrinsic size effects

Brian Derby; Rui Dou

The strength of nanoporous gold: strain gradient and intrinsic size effects

Materials Engineering

Research output: Other contribution › peer-review

Abstract

The very high strengths that have been reported for nanoporous gold may be related to strain gradients within the deforming porous microstructure. We present a mechanism-based model for the strength of nanoporous foams that is derived from conventional models for the deformation of macroscopic foams and now includes the influence of strain gradients. This model predicts that the strength of the ligaments within the nanoporous gold is proportional to the ligament diameter raised to the power −0.5. We have used the model to analyze experimental data for the strength of nanoporous gold and find excellent agreement with published data.

Original language	English
Publisher	University of Manchester
Number of pages	6
Publication status	Published - 2008

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title = "The strength of nanoporous gold:: strain gradient and intrinsic size effects",

abstract = "The very high strengths that have been reported for nanoporous gold may be related to strain gradients within the deforming porous microstructure. We present a mechanism-based model for the strength of nanoporous foams that is derived from conventional models for the deformation of macroscopic foams and now includes the influence of strain gradients. This model predicts that the strength of the ligaments within the nanoporous gold is proportional to the ligament diameter raised to the power −0.5. We have used the model to analyze experimental data for the strength of nanoporous gold and find excellent agreement with published data.",

author = "Brian Derby and Rui Dou",

year = "2008",

language = "English",

publisher = "University of Manchester",

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T1 - The strength of nanoporous gold:

T2 - strain gradient and intrinsic size effects

AU - Derby, Brian

AU - Dou, Rui

PY - 2008

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N2 - The very high strengths that have been reported for nanoporous gold may be related to strain gradients within the deforming porous microstructure. We present a mechanism-based model for the strength of nanoporous foams that is derived from conventional models for the deformation of macroscopic foams and now includes the influence of strain gradients. This model predicts that the strength of the ligaments within the nanoporous gold is proportional to the ligament diameter raised to the power −0.5. We have used the model to analyze experimental data for the strength of nanoporous gold and find excellent agreement with published data.

AB - The very high strengths that have been reported for nanoporous gold may be related to strain gradients within the deforming porous microstructure. We present a mechanism-based model for the strength of nanoporous foams that is derived from conventional models for the deformation of macroscopic foams and now includes the influence of strain gradients. This model predicts that the strength of the ligaments within the nanoporous gold is proportional to the ligament diameter raised to the power −0.5. We have used the model to analyze experimental data for the strength of nanoporous gold and find excellent agreement with published data.

UR - https://www.researchgate.net/publication/229439951_Strain_gradients_and_the_strength_of_nanoporous_gold

M3 - Other contribution

PB - University of Manchester

ER -

The strength of nanoporous gold: strain gradient and intrinsic size effects

Abstract

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