化学
腐蚀
激进的
海水
过氧化氢
金属
反应性(心理学)
碳钢
人工海水
无机化学
质谱法
羟基自由基
光化学
碳纤维
化学工程
过氧化物
氢
电子顺磁共振
化学反应
盐(化学)
反应机理
冶金
反应中间体
作者
Yang Shen,Yuxiang Hu,Jinyan Du,Junchang Guo,Zhenxu Shi,Jianing Song,Tao Zhong,Haoze Yuan,Zhengrong Lin,Dehui Wang,Xu Deng
摘要
In marine environments, splash-induced microdroplets are highly aggressive corrosion media, producing metal corrosion rates several times higher than in fully immersed regions. While macroscopic factors contributing to splash-zone corrosion are well established, the chemical reactivity of seawater microdroplets provides a previously underappreciated complementary mechanism that further enhances corrosion. Here, we demonstrate that the spontaneous generation of reactive radical species within microdroplets significantly accelerates metal oxidation. Notably, the corrosion rate of carbon steel in NaCl microdroplets is over an order of magnitude higher than in NaCl bulk water. Electron paramagnetic resonance and fluorometric assays reveal sustained generation of hydroxyl radicals (·OH) and hydrogen peroxide (H 2 O 2 ) in microdroplets, negligible in bulk. These species drive a two-stage acceleration: (i) surface ·OH initiates rapid Fe oxidation and (ii) H 2 O 2 reacts with Fe 2+ via a cyclic Fenton process, regenerating ·OH and forming an FeOOH layer. Time-of-flight secondary-ion mass spectrometry shows that high-salinity Cl – subsequently displaces FeOOH to form soluble FeOCl, exposing fresh metal and sustaining localized corrosion. This study highlights spontaneously generated reactive species in microdroplets as a key driver of splash zone corrosion, offering insights for radical-targeted protective coatings.
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