The sensitivities of the normal modes arrival time to solitary internal waves (IWs) are analyzed by using the SW06 environments. Simulation results show that the arrival time of mode 1 is relatively stable. But, the...The sensitivities of the normal modes arrival time to solitary internal waves (IWs) are analyzed by using the SW06 environments. Simulation results show that the arrival time of mode 1 is relatively stable. But, there are some higher-order normal modes which arrive earlier than mode 1, and fluctuate with the appearance of solitary IWs. Explanation of the phenomenon is given based on ray theory. It is shown that, when thermocline falls down to some depths, those higher-order modes with a group of definite grazing angles mainly propagate above the thermocline and arrive earlier.展开更多
Anti-structured defects bridge atom migration among heterogeneous sublattices facilitating diffusion but could also result in the collapse of ordered structure.Component distribution Ni(75)AlxV(25-x) alloys are in...Anti-structured defects bridge atom migration among heterogeneous sublattices facilitating diffusion but could also result in the collapse of ordered structure.Component distribution Ni(75)AlxV(25-x) alloys are investigated using a microscopic phase field model to illuminate relations between anti-structured defects and composition,precipitate order,precipitate type,and phase stability.The Ni(75)AlxV(25-x) alloys undergo single Ni3V(stage Ⅰ),dual Ni3Al and Ni3V(stage Ⅱ with Ni3V prior;and stage Ⅲ with Ni3Al prior),and single Ni3Al(stage Ⅳ) with enhanced aluminum level.For Ni3V phase,anti-structured defects(V(Ni1),Niy,except V(Ni2)) and substitution defects(Al(Ni1),Al(Ni2),Alv) exhibit a positive correlation to aluminum in stage I,the positive trend becomes to negative correlation or smooth during stage Ⅱ.For Ni3 Al phase,anti-structured defects(Al(Ni),Ni(Al)) and substitution defects(V(Ni),V(Al)) have a positive correlation to aluminum in stage Ⅱ,but Ni(Al) goes down since stage Ⅲ and lasts to stage Ⅳ.V(Ni) and V(Al) fluctuate when Ni3Al precipitates prior,but go down drastically in stageⅣ.Precipitate type conversion of single Ni3V/dual(Ni3V+Ni3Al) affects Ni3V defects,while dual(Ni3V+Ni3Al)/single Ni3 Al has little effect on Ni3Al defects.Precipitate order swap occurred in the dual phase region affects on Ni3Al defects but not on Ni3V.展开更多
基金supported by the National Natural Science Foundation of China(11174312,11125420)the Office of Naval Research,USA
文摘The sensitivities of the normal modes arrival time to solitary internal waves (IWs) are analyzed by using the SW06 environments. Simulation results show that the arrival time of mode 1 is relatively stable. But, there are some higher-order normal modes which arrive earlier than mode 1, and fluctuate with the appearance of solitary IWs. Explanation of the phenomenon is given based on ray theory. It is shown that, when thermocline falls down to some depths, those higher-order modes with a group of definite grazing angles mainly propagate above the thermocline and arrive earlier.
基金Project supported by the Natural Science Basic Research Plan in Shaanxi Province of China(Grant No.2016JQ5014)the Fundamental Research Funds for the Central Universities,China(Grant No.3102014JCQ01024)+2 种基金the Research Fund of the State Key Laboratory of Solidification Processing(NWPU),China(Grant No.114-QP-2014)the Specialized Research Fund for the Doctoral Program of Higher Education of China(Grant No.20136102120021)the National Natural Science Foundation of China(Grant Nos.51474716 and 51475378)
文摘Anti-structured defects bridge atom migration among heterogeneous sublattices facilitating diffusion but could also result in the collapse of ordered structure.Component distribution Ni(75)AlxV(25-x) alloys are investigated using a microscopic phase field model to illuminate relations between anti-structured defects and composition,precipitate order,precipitate type,and phase stability.The Ni(75)AlxV(25-x) alloys undergo single Ni3V(stage Ⅰ),dual Ni3Al and Ni3V(stage Ⅱ with Ni3V prior;and stage Ⅲ with Ni3Al prior),and single Ni3Al(stage Ⅳ) with enhanced aluminum level.For Ni3V phase,anti-structured defects(V(Ni1),Niy,except V(Ni2)) and substitution defects(Al(Ni1),Al(Ni2),Alv) exhibit a positive correlation to aluminum in stage I,the positive trend becomes to negative correlation or smooth during stage Ⅱ.For Ni3 Al phase,anti-structured defects(Al(Ni),Ni(Al)) and substitution defects(V(Ni),V(Al)) have a positive correlation to aluminum in stage Ⅱ,but Ni(Al) goes down since stage Ⅲ and lasts to stage Ⅳ.V(Ni) and V(Al) fluctuate when Ni3Al precipitates prior,but go down drastically in stageⅣ.Precipitate type conversion of single Ni3V/dual(Ni3V+Ni3Al) affects Ni3V defects,while dual(Ni3V+Ni3Al)/single Ni3 Al has little effect on Ni3Al defects.Precipitate order swap occurred in the dual phase region affects on Ni3Al defects but not on Ni3V.
