C Liu scite author profile

C Liu

2Publications

4Citation Statements Received

0Citation Statements Given

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Pennsylvania State University

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Electrochemical Noise Measurements on Carbon and Stainless Steels in High Subcritical and Supercritical Aqueous Environments

Macdonald

Liu

Manahan³

1996

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The electrochemical noise induced in a pair of corroding carbon steel probes in simulated heat transport circuit fluids of a supercritical fossil-fueled power plant at temperatures up to 550°C and at pressures as high as 276 bar (4000 psi) was measured as a function of oxygen concentration, flow rate, temperature, and pressure. Additionally, electrochemical noise measurement (ENM) was explored as a means of detecting and monitoring stress corrosion cracking in sensitized Type 304 SS in high-temperature water (up to 288°C). Experimental results from these studies indicate that the electrochemical noise induced from corrosion of steels in high-temperature aqueous systems can be measured in a reproducible manner. The magnitude of the electrochemical noise responds sensibly to changes in the chemical and physical properties of the fluid, and the pattern of the electrochemical noise contains information on the nature of the corrosion processes that occur, including general corrosion, pitting attack, and stress corrosion cracking.

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Immersion Calorimetric Study of UV/ozone Processed Nano-PS Fibers

Liu¹,

Welch²,

Song³

et al. 2015

Journal of Nanotechnology and Smart Materials

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C Liu

Electrochemical Noise Measurements on Carbon and Stainless Steels in High Subcritical and Supercritical Aqueous Environments

Immersion Calorimetric Study of UV/ozone Processed Nano-PS Fibers

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