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Molecular dynamics study of solid state interfacial reaction in the Ni-Mo system (1999)

Zhang, Q. ; Lai, W.S. ; Liu, B.X.

Springer

Journal of computer-aided materials design 6 (1999), S. 103-116

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ISSN: 1573-4900

Keywords: Asymmetric growth ; Molecular dynamics simulation ; N-body potential ; Solid state interfacial reaction

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract Based on the Finnis–Sinclair formalism, an n-body Ni-Mo potential is constructed and the potential with optimized parameters is able to reproduce some physical properties of several Ni-Mo alloy phases. Molecular dynamics simulation with the constructed potential is performed to study the detailed process of solid-state interfacial reaction in the Ni/Mo multilayers upon isothermal annealing at medium temperatures. It is found that in the sandwich model or the bilayer model, interfacial reaction can take place down to 350 °C and is initiated through interface-crossing atomic diffusion, resulting in alloying and amorphization. The planar growth of the amorphous interlayer shows an asymmetric behavior, i.e., consuming the Ni lattice at a higher speed than the Mo lattice, leading to some intermediate stages where an Ni-enriched amorphous phase coexists with a small amount of unreacted Mo crystal. Moreover, it is revealed that 21 at.% Mo atoms in the Ni lattice reaches a critical value, resulting in a crystal-to-amorphous transition, while the critical concentration for collapsing of the Mo lattice is up to 25 at.% Ni. It follows that the above difference in the solubilities is regarded as the physical origin of asymmetric growth. Kinetically, the growth of the amorphous layer is found to follow a t 1/2 law, indicating that solid-state amorphization is indeed through a diffusion-limited reaction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008746204203

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Genetic bases of instability of male sterility and fertility reversibility in photoperiod-sensitive genic male-sterile rice (1999)

He, Y. Q. ; Yang, J. ; Xu, C. G. ; [et al.]

Springer

Theoretical and applied genetics 99 (1999), S. 683-693

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ISSN: 1432-2242

Keywords: Key words Genetic analysis ; Molecular marker ; Quantitative trait locus (QTL) ; Epistasis ; Hybrid rice

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Photoperiod-sensitive genetic male-sterile (PSGMS) rice, with its male fertility regulated by photoperiod length, is very useful for hybrid rice development. However, breeding for new PSGMS lines has faced two major difficulties – the stability of male sterility and the reversibility of male fertility. In this study we assessed the genetic bases of stability of sterility and fertility reversibility using a molecular marker-based approach. A cross was made between two newly bred PSGMS lines: Peiai 64S, which has a stable sterility but is difficult to reverse to fertility, and 8902S, which has a unstable sterility but is easy to reverse to fertility. The fertility of the parents and of the F1 and F2 populations was repeatedly examined under 11 different long-day and short-day conditions. The genetic effects were assayed by interval mapping and two-way analyses of variance using the F2 data of 128 polymorphic loci representing all the 12 rice chromosomes. The analyses resolved a number of single-locus QTLs and two-locus interactions under both long-day and short day conditions. The interactions involved a large number of loci, most of which were not detectable on a single-locus basis. The results showed that the genetic bases of both stability of sterility and reversibility of fertility are the joint effects of the additive effects of the QTLs and additive-by-additive components of two-locus interactions. The implications of these findings in hybrid rice development are also discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220051285

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