K
Ke Yang
Researcher at Chinese Academy of Sciences
Publications - 637
Citations - 14233
Ke Yang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Corrosion & Alloy. The author has an hindex of 48, co-authored 547 publications receiving 10187 citations. Previous affiliations of Ke Yang include University of Science and Technology of China & Dalian Institute of Chemical Physics.
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Superconductivity emerging from a suppressed large magnetoresistant state in tungsten ditelluride
Defen Kang,Yazhou Zhou,Wei Yi,Chongli Yang,Jing Guo,Youguo Shi,Shan Zhang,Zhe Wang,Chao Zhang,Sheng Jiang,Aiguo Li,Ke Yang,Qi Wu,Guangming Zhang,Liling Sun,Zhongxian Zhao +15 more
TL;DR: In this article, the suppression of the large magnetoresistance and emergence of superconductivity in pressurized tungsten ditelluride via high-pressure synchrotron X-ray diffraction, electrical resistance, magnetoreduction and alternating current magnetic susceptibility measurements was reported.
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Ablation behaviors of ultra-high temperature ceramic composites
TL;DR: In this article, the effects of UHTC additive, heat flux and ablation time on the ablation behaviors of the C/C-UHTC composites were investigated through exposure to an oxyacetylene torch flame with ultra-high temperature.
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In vitro corrosion behaviour of Mg alloys in a phosphate buffered solution for bone implant application.
TL;DR: After 48–96 h immersion, the corrosion reaction and the precipitation reaction reach a stable stage, displaying that the phosphate layer on magnesium surface, especially Zn-containing phosphate layer could provide effective protection for magnesium alloy.
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Evolution of deformation mechanisms of Ti-22.4Nb-0.73Ta-2Zr-1.34O alloy during straining
TL;DR: The plastic deformation behavior of Ti-22.4Nb-0.73Ta-2Zr-1.34O alloy was investigated by compression testing at room temperature as discussed by the authors.
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In situ TEM study of the effect of M/A films at grain boundaries on crack propagation in an ultra-fine acicular ferrite pipeline steel
TL;DR: In this paper, the micro-fracture mechanisms of an UFAF pipeline steel are investigated by in situ tensile testing in a transmission electron microscope, and the results indicate that a grain-boundary-film structure composed of martensite/austenite could significantly influence the crack propagating behavior in the UfaF steel, consequently lowering the fatigue-crack growth rate by enhancing roughness-induced crack closure during cyclic loading.