Here, highly stretchable and transparent UV curable poly(urethane-acry-late) elastomer has been synthesized by reacting urethane acrylate oligomer and two reactive diluents monomers. The synthesized elastomers can be stretched up to 600% and have high transparency of over 90% transmittance. The synthesized elastomers have been applied to several applications. Simple 3D model was printed with a 3D printer on the market. Stretchable ionic conductors were fabricated by a facile method of adding salt with ionic conductivity. Similarly, the resin with β-cyclodextrin, a cage-structured molecule, was cured and foam was generated simultaneously under the UV radiation. This research paves a new way for further development in applications of UV curable transparent elastomer and 3D printable elastomeric material.

在此，通过使氨基甲酸酯丙烯酸酯低聚物与两种反应性稀释剂单体反应，合成了高度可拉伸且透明的UV可固化的聚（氨基甲酸酯-丙烯酸酯）弹性体。合成的弹性体可拉伸至600％，并具有超过90％的透光率的高透明度。合成的弹性体已被应用于多种应用。简单的3D模型是使用市场上的3D打印机打印的。可伸缩的离子导体是通过添加具有离子电导率的盐的简便方法制造的。类似地，具有β-环糊精的笼形结构分子的树脂被固化并且在UV辐射下同时产生泡沫。这项研究为紫外线可固化的透明弹性体和3D可打印的弹性体材料的应用铺平了道路。