成核
增长率
腐蚀
材料科学
动力学
晶界
铝
冶金
形态学(生物学)
化学
地质学
微观结构
几何学
物理
数学
量子力学
古生物学
有机化学
作者
Philip Noell,Erin Karasz,Eric John Schindelholz,Andrew Polonsky,Ian Campbell,Ryan Katona,Michael Melia
标识
DOI:10.1038/s41529-023-00328-7
摘要
Abstract Assessing the lifetimes of alloys in humid, corrosive environments requires growth kinetic information regarding individual instances of damage, e.g. pit growth rates. Corrosion rates measured at the continuum scale using mass change convolute the rate of pit nucleation and growth, providing limited information on local kinetics. The current study used in-situ X-ray computed tomography to measure growth rates of individual pits in aluminum over 100 h of exposure in a humid, chloride environment. While pits grew at relatively constant rates over the first hours after nucleation, significant growth-rate nonlinearities subsequently occurred. These were linked to both droplet spreading, which altered the cathode size, and changes in the mode of pit growth. Pit morphology appeared to influence the dominant growth mode and the duration of pit growth. Post-mortem serial sectioning revealed pits preferentially attacked grain-boundary triple junctions and dislocation boundaries.
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