Life evaluation of organic coatings on hydraulic metal structures

Researchers of Nanjing University of Aeronautics and Astronautics have recently focused on the performance of organic coatings. In a joined research project with – among others – the Shandong University of Technology they analyzed the effects of tensile stress and corrosion environment on the protective performance of organic coatings on hydraulic metal structures.

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In the current study the influences of corrosion environment and tensile stress on the coating life are considered via the gloss retention coefficient and the corrosion inhibition coefficient. Image: Peter H/Pixabay

Accelerated ageing tests were performed on the organic coatings for 3600 h in UV-condensation test chambers and under immersion conditions. Gloss loss, color difference, thickness, rust area and adhesion of organic coatings were investigated. Acceleration coefficients between the accelerated ageing tests and the natural ageing environment are discussed based on the corrosion degree comparison method. The results show that corrosion degree of the coatings increases with the prolonging of the test time. Tensile stress accelerates the corrosion process of the organic coatings, and the corrosion degree of the organic coatings increases with the increase of stress levels. The corrosion process of the organic coatings could be divided into two stages: The first stage is the time from the beginning to the appearance of rust; second stage is the time from the appearance of rust to the 5% of rust area rate. The gloss loss rate is chosen to evaluate the corrosion behavior of the coatings in the early stage, while the rust area rate is chosen to evaluate the corrosion behavior of the coatings in the middle and later stage. A life evaluation model of the organic coatings on hydraulic metal structures is established based on the acceleration coefficient. The influences of corrosion environment and tensile stress on the coating life are considered via the gloss retention coefficient and the corrosion inhibition coefficient in the model.

Further information: Zhang, Zehui & Wu, Jin & Zhao, Xing & Zhang, Yongsheng & Wu, Yaming & Su, Tian & Deng, Huachao. (2020). Life evaluation of organic coatings on hydraulic metal structures. Progress in Organic Coatings. 148. 105848. 10.1016/j.porgcoat.2020.105848.

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