His scientific interests lie mostly in Composite material, Deformation, Grain boundary, Dislocation and Grain size. Xiaoyan Li integrates Composite material with Fabrication in his study. The concepts of his Deformation study are interwoven with issues in Nanocrystalline material, Necking, Fracture and Nanostructure.
His Grain boundary research integrates issues from Graphene and Crystallite. His Dislocation research includes themes of Deformation mechanism, Nanotechnology and Nucleation. His work carried out in the field of Grain size brings together such families of science as Finite element method, Copper, Torsion, Yield and Microstructure.
Xiaoyan Li mainly investigates Composite material, Deformation, Dislocation, Nanotechnology and Deformation mechanism. His Composite material research incorporates themes from Graphene and Nanocrystalline material. The Deformation study combines topics in areas such as Nanostructure, Phase, Fracture, Ductility and Microstructure.
Xiaoyan Li combines subjects such as Strain hardening exponent, Crystal twinning and Nucleation with his study of Dislocation. His work on Nanomaterials and Roll-to-roll processing as part of general Nanotechnology research is frequently linked to Fabrication, bridging the gap between disciplines. The Deformation mechanism study which covers Flow stress that intersects with Yield and Stress.
His primary scientific interests are in Composite material, Deformation mechanism, Nanotechnology, Deformation and Nucleation. His Composite material research includes elements of Finite element method and Graphene. His Deformation mechanism study incorporates themes from Ultimate tensile strength, High entropy alloys and Dislocation.
His studies deal with areas such as Crystal twinning and Strain hardening exponent as well as Dislocation. His work in the fields of Nanotechnology, such as Roll-to-roll processing, intersects with other areas such as Fabrication and Candle soot. The study incorporates disciplines such as Structure property, Mechanical property and Metallic materials in addition to Deformation.
Transformation, XANES, XANES Spectroscopy, Bioreactor and Phosphorus are his primary areas of study. By researching both Transformation and Structure analysis, Xiaoyan Li produces research that crosses academic boundaries.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Dislocation nucleation governed softening and maximum strength in nano-twinned metals
Xiaoyan Li;Yujie Wei;Yujie Wei;Lei Lu;K e Lu.
Deformation mechanisms in nanotwinned metal nanopillars
Dongchan Jang;Xiaoyan Li;Huajian Gao;Julia R. Greer.
Nature Nanotechnology (2012)
High-content ductile coherent nanoprecipitates achieve ultrastrong high-entropy alloys
Yao-Jian Liang;Linjing Wang;Yuren Wen;Baoyuan Cheng.
Nature Communications (2018)
Plastic anisotropy and associated deformation mechanisms in nanotwinned metals
Zesheng You;Xiaoyan Li;Liangjin Gui;Qiuhong Lu.
Acta Materialia (2013)
Flaw insensitive fracture in nanocrystalline graphene.
Teng Zhang;Xiaoyan Li;Sara Kadkhodaei;Huajian Gao.
Nano Letters (2012)
Modeling grain size dependent optimal twin spacing for achieving ultimate high strength and related high ductility in nanotwinned metals
Linli Zhu;Haihui Ruan;Xiaoyan Li;Ming Dao.
Acta Materialia (2011)
Mechanical properties and deformation mechanisms of gradient nanostructured metals and alloys
Xiaoyan Li;Lei Lu;Jianguo Li;Xuan Zhang.
Nature Reviews Materials (2020)
Mechanical properties and scaling laws of nanoporous gold
Xiao-Yu Sun;Guang-Kui Xu;Xiaoyan Li;Xi-Qiao Feng.
Journal of Applied Physics (2013)
Ultralight, scalable, and high-temperature–resilient ceramic nanofiber sponges
Haolun Wang;Haolun Wang;Xuan Zhang;Ning Wang;Yan Li.
Science Advances (2017)
Love waves in functionally graded piezoelectric materials
X.Y. Li;Z.K. Wang;S.H. Huang.
International Journal of Solids and Structures (2004)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: