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Size effect and boundary type on the strengthening of nanoscale domains in pure nickel
Yuan FP(袁福平); Wu XL(武晓雷); Yuan, FP (reprint author), Chinese Acad Sci, Inst Mech, State Key Lab Nonlinear Mech, 15 North 4th Ring,West Rd, Beijing 100190, Peoples R China.
Source PublicationMaterials Science and Engineering A
2015-11-11
Volume648Pages:243-251
ISSN0921-5093
AbstractA series of large-scale molecular dynamics simulations were carried out to investigate the interactions between an extended edge dislocation (1/2 < 112 > (111)) and nanoscale domains in pure nickel. The pinning strength of nano-domains and the corresponding atomistic interaction mechanisms were found to be closely related to the domain boundary type, the domain size and spacing. The pinning strengths were found to be higher for high-angle domains than those for low-angle domains at the same size scale, and increase with increasing domain size and decreasing domain spacing. Unlike the by-pass via interactions between the dislocation and boundaries for high-angle domains (much like the role of hard precipitates in alloys), the dislocation was found to cut partly through the low-angle domains. Thus the dragging force from the boundary segments of the low-angle domains should be smaller when compared to the Orowan's strengthening for "hard particles", such as high-angle domains. The predictions from Ashby's model on Orowan's strengthening are higher than the simulation data for low-angle domains, while agree relatively well with those for high-angle domains. Moreover, a more universal model was proposed to connect the dislocation line shape at the critical shear strain with the pinning strength. (C) 2015 Elsevier B.V. All rights reserved.
KeywordDislocation Orowan's Strengthening Molecular Dynamics Pinning Strength Nano-domains
DOI10.1016/j.msea.2015.09.071
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Indexed BySCI ; EI
Language英语
WOS IDWOS:000363820700032
WOS KeywordSEVERE PLASTIC-DEFORMATION ; NANOSTRUCTURED METALS ; PRECIPITATE SHAPE ; TENSILE DUCTILITY ; MAXIMUM STRENGTH ; ALPHA-IRON ; ALLOYS ; COPPER ; MECHANISMS ; NI
WOS Research AreaScience & Technology - Other Topics ; Materials Science ; Metallurgy & Metallurgical Engineering
WOS SubjectNanoscience & Nanotechnology ; Materials Science, Multidisciplinary ; Metallurgy & Metallurgical Engineering
Funding OrganizationThe authors would like to acknowledge the financial support from National Natural Science Foundation of China (Nos. 11222224, 11472286 and 11021262) and National Key Basic Research Program of China (Grants nos. 2012CB932203 and 2012CB937500). The simulations reported were performed at Supercomputing Center of Chinese Academy of Sciences.
DepartmentLNM材料介观力学性能的表征
Classification一类
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Document Type期刊论文
Identifierhttp://dspace.imech.ac.cn/handle/311007/58336
Collection非线性力学国家重点实验室
Corresponding AuthorYuan, FP (reprint author), Chinese Acad Sci, Inst Mech, State Key Lab Nonlinear Mech, 15 North 4th Ring,West Rd, Beijing 100190, Peoples R China.
Recommended Citation
GB/T 7714
Yuan FP,Wu XL,Yuan, FP . Size effect and boundary type on the strengthening of nanoscale domains in pure nickel[J]. Materials Science and Engineering A,2015,648:243-251.
APA 袁福平,武晓雷,&Yuan, FP .(2015).Size effect and boundary type on the strengthening of nanoscale domains in pure nickel.Materials Science and Engineering A,648,243-251.
MLA 袁福平,et al."Size effect and boundary type on the strengthening of nanoscale domains in pure nickel".Materials Science and Engineering A 648(2015):243-251.
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