Chung-Liang Yeh scite author profile

Chung-Liang Yeh

3Publications

22Citation Statements Received

34Citation Statements Given

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Affiliations

Cooperative Research Centre for Polymers, University of Toronto, Queensland University of Technology

Publications

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The effect of common agrichemicals on the environmental stability of polyethylene films

Yeh

Nikolić

Gomes

et al. 2015

Polymer Degradation and Stability

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The impact of commonly used agrichemicals (Paraquat, Mancozeb, Chlorpyrifos and Sulfur) on the environmental stability of polyethylene films has been evaluated under accelerated photo-oxidative conditions. Paraquat and Mancozeb when applied to unstabilized clear polyethylene film, followed by exposure to UV radiation, resulted in direct attack of the polymer, evident by faster rates of oxidation and shorter times to embrittlement compared to a polyethylene control. Reapplication of these chemicals during exposure, as often occurs in agricultural practice, resulted in even faster degradation. In contrast, Sulfur and Chlorpyrifos did not have a significant effect on the photodegradation of exposed unstabilized polyethylene film. When the polyethylene film was pigmented (white top layer containing rutile titanium dioxide and carbon black in the bottom layer) and stabilized with the addition of hindered amine stabilizers (HAS), differences in oxidation susceptibility were seen with repeated exposure to Paraquat showing the most dramatic effect. This was evident by an increased carbonyl index, decrease in elongation at break and an increase in tensile stress at yield compared to a control film and other agrichemical treatments. These studies enable degradation from accelerated consumption of stabilizers by the agrichemicals (and their degradation products) to be differentiated from enhanced photochemical initiation of the polyethylene degradation.

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Cation exchange across ion-exchange membranes

Tombalakian¹,

Yeh²,

Graydon³

1967

J. Phys. Chem.

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Mass transfer coefficients across ion‐exchange membranes

1964

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A study of the interchange of hydrogen ion with various cations across polystyrene sulphonic acid ion‐exchange membranes has been made. The effects of membrane exchange capacity and crosslinking, solution concentration, temperature, counter ion valence and size on mass transfer rates were determined. The results indicated that ion and water transports across the membrane were dependent on the membrane water content, the ion concentration of the membrane, and the membrane ionic form. The mass transfer rates were relatively insensitive to change in external solution concentration.

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Chung-Liang Yeh

The effect of common agrichemicals on the environmental stability of polyethylene films

Cation exchange across ion-exchange membranes

Mass transfer coefficients across ion‐exchange membranes

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