(552d) Conductive Polyurethane Multiwalled Carbon Nanotubes Nanocomposites for Anticorrosion Applicataion | AIChE

(552d) Conductive Polyurethane Multiwalled Carbon Nanotubes Nanocomposites for Anticorrosion Applicataion

Authors 

Ding, D. - Presenter, Lamar University
Wei, H., University of Tennessee Knoxville
He, Q., Lamar University
Ho, T. C., Dan F. Smith Department of Chemical Engineering, Lamar University
Wei, S., Lamar University
Guo, Z., University of Tennessee Knoxville


Conductive Polyurethane Multiwalled Carbon Nanotubes Nanocomposites for

Anticorrosion Applicataion

Daowei Ding, Huige Wei, Qingliang He, T. C. Ho, Suying Wei and Zhanhu Guo

In this talk, conductive polyurethane (PU) nanocomposite coatings filled with multiwalled carbon nanotues (MWNTs) prepared via an in situ surface-initiated- polymerization method were evaluated for anticorrosion purpose. Scanning electron microscopy (SEM) revealed uniformly dispersed MWNTs nanoparticles in the PU matrix. Thermogravimetric analysis (TGA) showed an enhanced thermal stability of the composite as compared to pure PU. The nanocomposites exhibit a good response of electrical conductivity change to the varying strain during the cyclic strain test. Whatâ??s more, the conductivity decreased with increasing the MWNTs loading. The anticorrosion tests in the 3.0 wt% NaCl aqueous solution suggested that the composite coatings possess a good chemical stability over long immersion time in a corrosive environment. A significantly positive shift of nearly 1.0 V in the open current potential, Eocp, was observed from the Eocp-time curve of MWNTs/PU composite-coated stainless steel electrode. Extrapolation of Tafel plots gave a much more positive corrosion potential (Ecorr) and much lower corrosion current (Icorr). A protection efficiency as high as 97.70% was obtained. Electrochemical impedance spectroscopy (EIS) was conducted as well to investigate and obtain the anticorrosion mechanism of the composite coating. An equivalent circuit of the coating was proposed to fit the EIS data, confirming an effective corrosion protection for the stainless steel. The results indicated that the polyurethane matrix combined with the well dispersed MWNTs reinforcements provides an effective physical barrier against the attack of corrosive ions in the solution for the stainless steel.
References:

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