FCC/ A7550 Studies of specific magnetic materials A7560C Magnetic domain walls and domain structure B3110C Ferromagnetic materialsThe concept of an "ideal" lattice parameter offers an explanation for the variation of ferromagnetic properties of f.c.c. Ni-Fe alloys with Ni content. In particular,...
The lattice parameter of expanded austenite was determined as a function of the content of interstitially dissolved carbon in homogeneous, carburized thin ... Thomas,S.,Hummelshj,... - 《Scripta Materialia》 被引量: 55发表: 2010年 Lattice Parameters of Martensite and Austenite in Fe–Ni Alloys...
L10 structure formation in slow-cooled Fe-Au nanoclusters The stable L10structure formed from a parent fcc solid solution phase observed in the as-formed clusters. The fcc phase has a lattice parameter of 0.417... P Mukherjee - 《Applied Physics Letters》 被引量: 20发表: 2012年 Effects of ...
In the present work, a recently developed three-body potential and a new two-body model potential are first used, as an application, to investigate the dynamical behaviour of fcc Fe-28%Pd alloy. For this purpose, two- and three-body interactions have been employed to devolop the dynamical ...
the linear composition coefficients of fcc Ni lattice parameter for different solutes were determined, and the lattice parameters of multicomponent Ni-base superalloys as a function of solute composition were predicted. The results are compared with existing experimental measurements, and good agreements ar...
The exchange interaction, Eq. (1), is governed by the exchange parameter\(J(r_{ij})\)which depends on the distance,\(r_{ij}\), between spinsiandj. The spatial dependence ofJ(r) is described by the following Bethe-Slater curve, ...
The neutron affinities of these fcc transition metals (Ti, Ni, Pd, Pt) and bcc one (Cr, Fe, Mo) has positive values while those of other bcc ones have negative values in correlation with the occurrence of the CFP in the former and absence in the latter. The definition of the neutron...
Influence of Lattice Parameter Differences on the Electrochemical Performance of the 5 V Spinel LiMn_(1.5-y)Ni_(0.5-z)M_(y+z)O_4 (M = Li, Mg, Fe, Co, and Zn) Cation substituted spinel LiMn_(1.5-y)Ni_(0.5-z)M_(y+z)O_4 cathodes exhibit superior capacity retention and rate capa...
The stacking fault energy is an important parameter in the deformation mechanism of face centered cubic (fcc) iron-based alloy. In this study the effect of interstitial (C and N) and substitutional (Nb and Ti) alloying on the stacking fault energy (SFE) of fcc iron are investigated via ...
Dynamic stability and properties of the machine-learned spin-lattice dynamics potential (MSLP) for iron. Comparison of instantaneous (a) total energies per atom and (b) lattice parameter per unit cell between 2000 atom () and 128,000 atom () simulation cells at 10 K and 100 K. (c) Latt...