(2539)POLYURETHANE DISPERSIONS DERIVED FROM SOYBEAN OIL POLYESTER POLYOL

机译：（2539）衍生自大豆油聚酯多元醇的聚氨酯分散体

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Soybean oil polyester polyol (SOPP) obtained from an ozonolysis technology has been employed to make aqueous polyurethane dispersions in two steps. In the first step, SOPP and neutralized dimethylol propionic acid (n-DMPA) was reacted with isophorone diisocyanate (IPDI) in the presence of acetone to form a prepolymer. In the second step the prepolymer was dispersed in water followed by acetone removal to obtain the polyurethane dispersions (PUDs). The PUDs had more than 40 wt% of SOPP and did not contain any volatile organic components (VOC). The glass transition temperature of the PUDs was decreased as the amount of SOPP content increased in the polymer backbone. The PUDs formed excellent films upon drying and the dried films had good water and chemical resistance. The PUDs were formulated into a chemical agent resistant coating (CARC) and their performance was compared against commercially available Mil-Spec CARC based on petroleum derived PUDs. The experimental coatings resisted the chemical agent simulants slightly higher compared to the commercial control coatings.

机译：已经采用由臭氧溶解技术获得的大豆油聚酯多元醇（SOPP）以制备两步中的水性聚氨酯分散体。在第一步中，在丙酮存在中以形成预聚物，使SOPP和中和的二甲基丙酸（N-DMPA）与异佛酮二异氰酸酯（IPDI）反应。在第二步中，将预聚物分散在水中，然后去除丙酮以获得聚氨酯分散体（PUD）。 PUD有超过40％wt％的SOPP，并且不含任何挥发性有机成分（VOC）。随着聚合物主链中的SOPP含量增加，PUD的玻璃化转变温度降低。在干燥时，PUD在干燥时形成优异的薄膜，干燥的薄膜具有良好的水和耐化学性。将PUD配制成化学试剂抗性涂料（CARC），并将其性能与基于石油衍生的PUD的商业上可获得的MIL规范进行比较。与商业对照涂料相比，实验涂层抵抗化学试剂模拟剂略高。

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《Society for the Advancement of Material and Process Engineering Technical Conference and Exhibition》|2012年||共9页
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Phil Denen; Rick Heggs; Ramanathan Lalgudi;
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(2539)POLYURETHANE DISPERSIONS DERIVED FROM SOYBEAN OIL POLYESTER POLYOL

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