Internal sulfidation of an Fe6Al (at.%) alloy at 1173 K by FeS-alloy diffusion coupling

Hydrogen diffusion in metals is still an ongoing topic of research due to its technical relevance (hydrogen embrittlement, hydrogen storage...). In the last decades, significant progress in understanding the time evolution of the hydrogen concentration in solids was completed. This paper presents a modeling of hydrogen diffusion with a general and thermodynamically based diffusion concept coupled with mechanical and chemical aspects. This model was previously used to simulate the oxidation of a metal [1][2]. This concept has been upgraded to offer a thoroughly macroscopic behavior law used to simulate hydrogen diffusion in metal parts under mechanical loadings. The thermodynamic approach of the stress-diffusion coupling was implemented in a finite element code in order to study the hydrogen diffusion mode into a strained metal. Simulations were performed on a cylindrical austenitic steel tank under important internal pressure. The results of this study allow us to understand how hydrogen diffusion and mechanical stresses are mutually induced and modified.

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Concentration Distribution of Chloride Ion under the Influence of the Convection-Diffusion Coupling

Advances in Materials Science and Engineering ◽

10.1155/2017/2076986 ◽

2017 ◽

Vol 2017 ◽

pp. 1-10 ◽

Cited By ~ 3

Author(s):

Q. L. Zhao ◽

Y. Z. Zhang

Keyword(s):

Early Period ◽

Chloride Ion ◽

Convection Velocity ◽

Ion Concentration ◽

Transfer Model ◽

Ion Transfer ◽

Coupling Region ◽

Diffusion Coupling ◽

Convection Diffusion ◽

The Moment

The transfer process of chloride ion under the action of the convection-diffusion coupling was analyzed in order to predict the corrosion of reinforcement and the durability of structure more accurately. Considering the time-varying properties of diffusion coefficient and the space-time effect of the convection velocity, the differential equation for chloride ion transfer under the action of the convection-diffusion coupling was constructed. And then the chloride ion transfer model was validated by the existing experimental datum and the actual project datum. The results showed that when only diffusion was considered, the chlorine ion concentration increased with the time and decreased with the decay index of time. Under the action of the convection-diffusion coupling, at each point of coupling region, the chloride ion concentration first increased and then decreased and tended to stabilize, and the maximum appeared at the moment of convection velocity being 0; in the diffusion zone, the chloride ion concentration increased over time, and the chloride ion concentration of the same location increased with the depth of convection (in the later period), the velocity of convection (in the early period), and the chloride ion concentration of the surface.

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The Deformation–Diffusion Coupling in Thin Elastomeric Gels

Mechanics and Model-Based Control of Advanced Engineering Systems ◽

10.1007/978-3-7091-1571-8_25 ◽

2013 ◽

pp. 229-237

Author(s):

Takuya Morimoto ◽

Hiroshi Iizuka

Keyword(s):

Diffusion Coupling

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Passivity and pinning passivity of complex dynamical networks with spatial diffusion coupling

Neurocomputing ◽

10.1016/j.neucom.2016.06.076 ◽

2017 ◽

Vol 227 ◽

pp. 3-9 ◽

Cited By ~ 9

Author(s):

Shun-Yan Ren ◽

Jigang Wu ◽

Bei-Bei Xu

Keyword(s):

Complex Dynamical Networks ◽

Spatial Diffusion ◽

Dynamical Networks ◽

Diffusion Coupling

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Electrostress Diffusion Coupling Model for Polyelectrolyte Gels

Macromolecules ◽

10.1021/ma047944j ◽

2005 ◽

Vol 38 (4) ◽

pp. 1349-1356 ◽

Cited By ~ 60

Author(s):

Tatsuya Yamaue ◽

Hiroto Mukai ◽

Kinji Asaka ◽

Masao Doi

Keyword(s):

Coupling Model ◽

Diffusion Coupling ◽

Polyelectrolyte Gels

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A study of the mechanism of internal sulfidation-internal oxidation during hot corrosion of Ni-base alloys

Oxidation of Metals ◽

10.1007/bf00659270 ◽

1987 ◽

Vol 27 (5-6) ◽

pp. 253-265 ◽

Cited By ~ 21

Author(s):

Zhu Rizhang ◽

Guo Manjiou ◽

Zuo Yu

Keyword(s):

Internal Oxidation ◽

Hot Corrosion ◽

Internal Sulfidation

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Study on the Corrosion Resistance Behavior of Multi-Elements Alloy CoCrFeNiTi0.5

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.541-542.61 ◽

2014 ◽

Vol 541-542 ◽

pp. 61-68

Author(s):

Sheng Jiao Pang ◽

Ping Li ◽

Ting Ju Li ◽

Jie Zhao

Keyword(s):

Corrosion Resistance ◽

Oxide Scale ◽

Oxide Layer ◽

Good Adhesion ◽

Tube Material ◽

Protective Oxide ◽

Good Thermal Stability ◽

The Matrix ◽

Internal Sulfidation ◽

Melting Point Eutectic

Multi-elements alloy with good thermal stability is expected to serve as the superheater tube material of ultra-supercritical boiler and may suffer from hot corrosion under the coal-fired atmosphere. In this study, the corrosion resistance behavior of multi-elements alloy CoCrFeNiTi0.5 coated with alkali metal sulfates at 750°C is investigated systematically. The results showed the corrosion kinetics curves of the alloy followed a parabolic growth rate. The corrosion products, which consisted of volatile Na (CrO4) (SO4), (Fe,Ni) xSy, Cr/Ti oxide as well as compound oxides with spinel structure AB2O4, were found in the oxide scale and internal attack zone of the alloy. The oxide layer had good adhesion with the matrix at the beginning of corrosion. Prolonging corrosion time, the oxide layer in thickness increased and became loose as well as porous. The micro-pores generated in the interface between the oxide scale and matrix with the occurrence of the internal oxidation and internal sulfidation. In a word, the corrosion resistance behavior of multi-elements alloy CoCrFeNiTi0.5 at 750°C can be attributed to the formation of the protective oxide layers and to the basic fluxing in molten Na4SO4 induced by low melting point eutectic.

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