Összesen 2 találat.


001-es BibID:BIBFORM058692
Első szerző:Feng Caimei
Cím:Research progress of electrode suspensions of lithium-ion flow batteries / Feng Caimei, Chen Yongchong, Han Li, Gong Yu, Cserhati Csaba, Csik Attila
Tárgyszavak:Természettudományok Fizikai tudományok idegen nyelvű folyóiratközlemény külföldi lapban
energy storage
lithium-ion flow battery
electrode suspensions
Megjelenés:Energy Storage Science and Technology. - 4 : 3 (2015), p. 241-247. -
További szerzők:Chen Yongchong Han Li Gong Yu Cserháti Csaba (1963-) (fizikus) Csik Attila (1975-) (fizikus)
Pályázati támogatás:TÉT_12_CN-2012-00036
Internet cím:Intézményi repozitóriumban (DEA) tárolt változat


001-es BibID:BIBFORM081240
035-os BibID:(WOS)000372691500012
Első szerző:Gong Yu
Cím:Investigation of periodic-layered structure during solid state reactions of Zn/CuxTiy systems / Gong Yu, Chen Yongchong, Liu Dandan, Zhang Yanping, Cserháti Csaba, Csik Attila
Megjegyzések:Periodic-layered structure during solid state reactions is one of the most complicated and interesting structures in the solids, which consists of a periodic sequence of layers that grow perpendicularly to the expected macroscopic diffusion flow. Since the Zn/Fe3Si system was first discovered, much research work has been done on the characterization of the microstructures, the understanding of the formation mechanism and discovery of new systems. However, the exact nature of this phenomenon still remains a controversial topic. In the spirit of thermodynamic instability mechanism, the periodic-layered structure consists of single phase a layer and single phase beta layer arrange alternately, while in that of dynamic instability mechanism, which is based on a diffusion-induced stress model, the structure is considered to be composed of regular multilayers of single phase a and two-phase alpha+beta. In the present work, the solid state reactions of various Zn/CuxTiy diffusion systems annealed at 663 K for different times were investigated by using melting contact method, SEM and EDS. The results show that both the polished sections and the in situ fracture surfaces of periodic-layered structure, 5 new systems, i.e. Zn/Cu9Ti, Zn/Cu4Ti, Zn/Cu2Ti3, Zn/Cu3Ti2, Zn/Cu4Ti3 are found to form periodic-layered structure within the diffusion zones. The periodic layered structure is composed of the CuZn2 single phase and CuZn2+TiZn3 two-phase layers distributing alternately within the reaction area near the CuxTiy side. Furthermore, the thickness of the periodic layers relates to the composition of CuxTiy substrates: the higher the content of Cu atom in the Cu-Ti substrate, the thinner the layer will be. In addition, the adjacent two-phase layers show mated topography and the interface between the periodic layers illustrates typical tear characteristics in mechanics, which are in good accordance with the prediction of the diffusion induced stresses model. Therefore, the present work provides new and convincing evidence for the dynamic instability mechanism in the interpretation of periodic-layered structures in solids.
Tárgyszavak:Természettudományok Fizikai tudományok idegen nyelvű folyóiratközlemény külföldi lapban
diffusion couple
periodic-layered structure
solid reaction
diffusion-induced stress
Megjelenés:Acta Metallurgica Sinica. - 52 : 3 (2016), p. 349-354. -
További szerzők:Chen Yongchong Liu Dandan Zhang Yanping Cserháti Csaba (1963-) (fizikus) Csik Attila (1975-) (fizikus)
Pályázati támogatás:Chinese-Hungarian Bilateral Project No.[2013]83-6-13
Internet cím:DOI
Intézményi repozitóriumban (DEA) tárolt változat
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