Corrosion Mitigation for Mechanically-Fastened Fiber-Reinforced-Polymer Composites

Moira Callahan, Ruby Romsland, Kenneth J. McDonald, Brad C. McCoy
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Abstract

Mechanically-Fastened Fiber Reinforced Polymer Composites (MF-FRPs) are currently being used to extend the useful service life of deteriorated bridges. However, the A325 Steel fastener assemblies used to attach the MF-FRP system to the bridges are experiencing noticeable corrosion. Through electrochemical polarization measurements and Tafel analysis, the expected lifetime of the A325 fastener assembly was determined and compared to other similar materials, Military Specification Grade 5 Steel (MTD-STD) and PH 17-4 Stainless Steel (PH 17-4). ASTM B117 salt fog testing was performed on each material fastener assembly to simulate the corrosion that should be experienced by each material. The electrochemical analysis and the ASTM B117 salt fog test confirmed the MIL-STD assembly corroded at a much slower rate compared to either A325 or PH 17-4. It was determined that the useful life of the fastener assembly could be extended from 6.5 year using A325 to 372 years using MIL-STD. Implementation of this engineering materials solution will extend the useful life of the MF-FRP fastener assembly however, a cost benefit analysis determined that continuing to use A325 is still the best option given the desired useful life of the MF-FRP retrofit system is 3 to 5 years.
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机械紧固纤维增强聚合物复合材料的缓蚀性能
机械紧固纤维增强聚合物复合材料(MF-FRPs)目前被用于延长老化桥梁的使用寿命。然而,用于连接MF-FRP系统到桥梁的A325钢紧固件组件正在经历明显的腐蚀。通过电化学极化测量和Tafel分析,确定了A325紧固件组件的预期寿命,并与其他类似材料,军事规格5级钢(MTD-STD)和PH 17-4不锈钢(PH 17-4)进行了比较。在每种材料紧固件组件上进行ASTM B117盐雾测试,以模拟每种材料应该经历的腐蚀。电化学分析和ASTM B117盐雾测试证实,与A325或PH 17-4相比,MIL-STD组件的腐蚀速度要慢得多。确定紧固件组件的使用寿命可以从使用A325的6.5年延长到使用MIL-STD的372年。实施这一工程材料解决方案将延长MF-FRP紧固件组件的使用寿命,然而,成本效益分析确定,考虑到MF-FRP改造系统的预期使用寿命为3至5年,继续使用A325仍然是最佳选择。
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