Chin-Sen Yeh scite author profile

Chin-Sen Yeh

2Publications

13Citation Statements Received

118Citation Statements Given

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Yuan Ze University

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Catalytic effects of copper oxides on the curing and degradation reactions of cyanate ester resin

Hong¹,

Yeh²

2007

J of Applied Polymer Sci

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The catalytic effect of copper oxides on the curing and degradation behaviors of the cyanate ester resin is studied with infrared spectroscopy, attenuated total reflection infrared spectroscopy (ATR), differential scanning calorimetry (DSC), and thermogravimetry analysis (TGA). The result of infrared spectroscopy and DSC analyses indicates that accelerated curing effects from different additives are in the order of zinc octoate > cuprous oxide > cupric oxide. The exothermic characteristics of the cyanate ester resin during cure are drastically affected by the presence of the copper oxides. In addition, it is obtained from TGA analyses that the thermal stability and degradation mechanism of cyanate ester resins are also significantly affected by the addition of copper oxides whereas the extent of degradation from the cupric oxide is greater than that from the cuprous oxide. These results are attributed to the differences in catalytic effects and surface areas of two copper oxides on the cyanate ester resin in contact during the thermal exposure.

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The Effects of Copper Oxides on the Curing Behaviors of Bismaleimide Triazine Prepreg

Hong

Yeh

2002

Macro Materials & Eng

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The effect of copper oxides on the curing behaviors of the bismaleimide triazine (BT) prepreg is studied with infrared spectroscopy (IR), attenuated total reflection infrared spectroscopy (ATR), and X‐ray photoelectron spectroscopy (XPS). The result of IR analyses indicates that there is a concentration distribution present in the prepreg surface layer and the outer surface layer contains less cyanate, imide, and epoxide but more triazine groups than the inner layer. From ATR, it is concluded that the cuprous oxide attracts more cyanate ester resins but less bismaleimide resins from the prepreg to its surface than the cupric oxide. The copper surface affects the curing extent of the BT resin in contact and the cupric oxide has a more pronounced effect than the cuprous oxide, and this surface effect can extend to at least two microns deep into the BT prepreg from the contacted interface. The XPS results confirm that the BT/CuO interface contains more thermally stable and polar functional groups than the BT/Cu2O interface, and both two copper oxides attract only a small amount of brominated epoxy resin onto their surfaces. These results are attributed to the difference in preferential adsorptions and catalytic curing effects of two copper oxides on the BT prepreg in contact. The intensity changes of IR bands obtained from BT prepreg during cure.magnified imageThe intensity changes of IR bands obtained from BT prepreg during cure.

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Chin-Sen Yeh

Catalytic effects of copper oxides on the curing and degradation reactions of cyanate ester resin

The Effects of Copper Oxides on the Curing Behaviors of Bismaleimide Triazine Prepreg

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