Título

EFFECT OF TEMPERATURE ON CO2 CORROSION BEHAVIOR OF MEDIUM-CR STEEL OIL AND GAS COLLECTING AND TRANSPORTING PIPELINE IN SIMULATED WORKING ENVIRONMENT

DOI

10.5151/9785-9785-32249

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Resumo

 

Abstract: The corrosion behavior of three kinds of medium-Cr rolled steel pipeline steels in carbon dioxide collecting and transporting environment at different temperatures was studied. The results shew that the 5Cr sample was most affected by temperature. When the temperature rised from 30 °C to 90 °C, the corrosion rate increased from 0.1201 mm/a to 1.8698 mm/a, which was increased 15.6 times. The corrosion rate of 7Cr steel at 30 °C was similar to that of 5Cr steel. However, as the temperature increased, the corrosion rate rised slowly, which was increased 2.4 times at 90 °C. The corrosion rate of 9Cr steel was not obvious with temperature, and it was always below 0.06 mm/a. The thickness of the corrosion product film of the three samples gradually increased below 70 ° C, and suddenly increased above 70 ° C. This was related to the negative temperature coefficient of the solubility of FeCO3, and the thickening of the product film also affected the ion exchange of the cathodic reaction. An increase in the Cr content contributed to grain refinement and increased the proportion of the small-angle grain boundaries. More fine grains mean an increase in the total length of the grain boundaries, which could provide a diffusion channel for the free Cr element; on the other hand, the low-angle grain boundary structure was more orderly, with a lower free volume and lower interface energy. Under the combined effect of both, 9Cr steel and 7Cr steel had smaller micro-area potential difference and better corrosion resistance.

Palavras-chave

middle-Cr rolled pipeline steel; carbon dioxide corrosion; grain boundaries;micro-area potential

Como citar

Gu, Yang; Wu, Hui-bin; Yuan, Rui; Zhang, Peng-cheng; Zhao, Zheng-zhi; Song, Shuai. EFFECT OF TEMPERATURE ON CO2 CORROSION BEHAVIOR OF MEDIUM-CR STEEL OIL AND GAS COLLECTING AND TRANSPORTING PIPELINE IN SIMULATED WORKING ENVIRONMENT , p. 264-276. In: 11th International Rolling Conference (IRC 2019), São Paulo, 2019.
ISSN: - , DOI 10.5151/9785-9785-32249