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Literature DB >> 15783975

Size dependence of incipient dislocation plasticity in Ni3Al.

Abstract

Molecular dynamics simulations are carried out to study the incipient dislocation plasticity in Ni3Al. Dislocation nucleation is found to occur preferentially at energetic atomic clusters with larger-than-average relative displacements. From the simulated distribution of the atomic relative displacements, a scaling model is proposed to predict the size dependence of the incipient plasticity condition in real-sized specimens.

Entities: Disease

Year: 2005 PMID： 15783975 DOI： 10.1103/PhysRevLett.94.095501

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

1. Surface-controlled dislocation multiplication in metal micropillars.

Authors: Christopher R Weinberger; Wei Cai
Journal: Proc Natl Acad Sci U S A Date: 2008-09-11 Impact factor: 11.205

2. Atomistic simulation study of influence of Al₂O₃-Al interface on dislocation interaction and prismatic loop formation during nano-indentation on Al₂O₃-coated aluminum.

Authors: Srishti Mishra; Md Meraj; Snehanshu Pal
Journal: J Mol Model Date: 2018-06-19 Impact factor: 1.810

Size dependence of incipient dislocation plasticity in Ni3Al.

1. Surface-controlled dislocation multiplication in metal micropillars.

2. Atomistic simulation study of influence of Al₂O₃-Al interface on dislocation interaction and prismatic loop formation during nano-indentation on Al₂O₃-coated aluminum.

3. Do Twin Boundaries Always Strengthen Metal Nanowires?

4. Dislocation creation and void nucleation in FCC ductile metals under tensile loading: a general microscopic picture.

5. Nickel nanoparticles set a new record of strength.

Size dependence of incipient dislocation plasticity in Ni3Al.

1. Surface-controlled dislocation multiplication in metal micropillars.

2. Atomistic simulation study of influence of Al2O3-Al interface on dislocation interaction and prismatic loop formation during nano-indentation on Al2O3-coated aluminum.

3. Do Twin Boundaries Always Strengthen Metal Nanowires?

4. Dislocation creation and void nucleation in FCC ductile metals under tensile loading: a general microscopic picture.

5. Nickel nanoparticles set a new record of strength.

2. Atomistic simulation study of influence of Al₂O₃-Al interface on dislocation interaction and prismatic loop formation during nano-indentation on Al₂O₃-coated aluminum.