Chemo-mechanical coupling effect in the high-temperature oxidation of metal materials: A review

“…1 . It was reported that PBR < 1 indicated a discontinuous and porous film with poor protection performance on the matrix ( Xu and Gao, 2000 ; Wang et al, 2019 ), since it contributed to a smooth way for H 2 O and ions to penetrate into the oxide film. Furthermore, the uncovered Fe matrix would act as anode, whereas the porous passivation film served as cathode of corrosion battery, thus further accelerating the anodic reaction ( El-Lateef et al, 2020 ).…”

Laser Additively Manufactured Iron-Based Biocomposite: Microstructure, Degradation, and In Vitro Cell Behavior

“…1 . It was reported that PBR < 1 indicated a discontinuous and porous film with poor protection performance on the matrix ( Xu and Gao, 2000 ; Wang et al, 2019 ), since it contributed to a smooth way for H 2 O and ions to penetrate into the oxide film. Furthermore, the uncovered Fe matrix would act as anode, whereas the porous passivation film served as cathode of corrosion battery, thus further accelerating the anodic reaction ( El-Lateef et al, 2020 ).…”

Laser Additively Manufactured Iron-Based Biocomposite: Microstructure, Degradation, and In Vitro Cell Behavior

“…Therefore, from abovementioned and many other studies, made during last decades and mostly focused on oxidation and lithiation reactions (see also Wang et al 2019;Fang et al 2019; Jia and Li 2015 and reference therein), but not only (see, e.g., the review Boldyrev (2006) of the effects of the hydrostatic and shear stresses on the mechanochemical reactions) it has been inferred that internal mechanical stresses generated during the chemical transformation as well as external loading affect the reaction front behavior.…”

“…McDowell et al (2012McDowell et al ( , 2013b; and stressaffected high temperature oxidation of alloys and composites, e.g., Jacobson et al (1998), Jacobson et al (1981), Yue et al (2018), etc. See also Kasavajjula et al (2007), Sethuramana et al (2010), Sethuramana et al (2012), Müller et al (2015), Zhao and Cui (2016), McDowell et al (2016), Yue et al (2018), Fang et al (2019), Wang et al (2019), Woods et al (2019) and reference therein.…”

Chemical Affinity Tensor in Coupled Problems of Mechanochemistry

“…The growing interest in this subject is motivated by the necessity of taking the influence of the mechanical stresses on the kinetics of chemical reactions in a wide range of practical problems into account. Examples include oxidation and fracture processes in polycrystalline silicon microscale parts of MEMS [1, 2] or in integrated‐circuit technologies [3–7], stress‐affected high‐temperature oxidation of alloys and composites [8–11], lithiation of Si in Li‐ion batteries [12, 13], and many others. There are two major types of chemical reactions: volumetric and interfacial localized ones.…”

“…For example, in [3] thermal oxidation of silicon under stress in cylindrical structures was studied; in [16] an experimental evidence of the influence of internal stresses on the kinetics of the reaction between Li and Si was obtained. The majority of researches indicate that tensile stress enhances the reaction front while compressive stress retards it, see, e.g., [5, 11, 12, 17, 18] and references therein. To explain the interconnections between chemical reactions and mechanical stresses a number of models of stress‐affected chemical reactions were elaborated.…”

Modeling stress‐affected chemical reactions in composite materials