Commercial Polyurethane(商用聚氨酯)研究综述
Commercial Polyurethane 商用聚氨酯 - Herein, a three-dimensional (3D) network structure is constructed by coating boron nitride nanosheets/carbon nanotubes on foam skeleton derived from the commercial polyurethane (PU) (3D BNNS/CNTs). [1] New antimicrobial polymer composite based on commercial polyurethane (PU) Laripur®LPR9020 and polymeric biocide polyhexamethylene guanidine hydrochloride (PHMG-Cl) has been prepared by solvent casting method. [2] Finally, the corrosion resistance of the coated samples was assessed via Electrochemical Impedance Spectroscopy (EIS) and the results were compared with commercial polyurethane-based coated samples. [3] Moreover, polyisobutylene-based polyurethane exhibited greater acid resistance than commercial polyurethane. [4] In this study, a dual bio-inspired shark-skin and lotus-structure (BSLS) surface was developed for fabrication on commercial polyurethane (PU) polymer. [5]在此,通过在衍生自商业聚氨酯 (PU) (3D BNNS/CNTs) 的泡沫骨架上涂覆氮化硼纳米片/碳纳米管来构建三维 (3D) 网络结构。 [1] 采用溶剂浇铸法制备了基于商用聚氨酯 (PU) Laripur®LPR9020 和高分子杀菌剂聚六亚甲基胍盐酸盐 (PHMG-Cl) 的新型抗菌聚合物复合材料。 [2] 最后,通过电化学阻抗谱 (EIS) 评估涂层样品的耐腐蚀性,并将结果与商业聚氨酯基涂层样品进行比较。 [3] 此外,聚异丁烯基聚氨酯比商业聚氨酯表现出更高的耐酸性。 [4] 在这项研究中,开发了一种双重仿生鲨鱼皮和莲花结构 (BSLS) 表面,用于在商业聚氨酯 (PU) 聚合物上制造。 [5]
commercial polyurethane foam
The calculated values of kinetics parameters are slightly lower than for the commercial polyurethane foams. [1] Highly pure Cr2AlC foams with high pore interconnectivity were processed by replica method, infiltrating commercial polyurethane foams with 20 and 30 pore per inch (ppi). [2] To evaluate the performance of biofiltration, NSRP-FM was compared with the commercial polyurethane foam (PU-foam), in two identical biotrickling filters (BTFs). [3]动力学参数的计算值略低于商业聚氨酯泡沫。 [1] 采用复制法加工具有高孔隙互连性的高纯度 Cr2AlC 泡沫,以 20 和 30 孔/英寸 (ppi) 渗透商业聚氨酯泡沫。 [2] 为了评估生物过滤的性能,NSRP-FM 在两个相同的生物滴滤器 (BTF) 中与商业聚氨酯泡沫 (PU-foam) 进行了比较。 [3]
commercial polyurethane sponge 商用聚氨酯海绵
Manufactured composites on the basis of commercial polyurethane sponges which were modified by polydopamine and coated with BN through dip-coating assemble method and the subsequent vacuum infiltration. [1] In this respect, a facile procedure was used to prepare commercial polyurethane sponge sorbent coated by Poly(dimethylsiloxane-co-alkylmethylsiloxane)-silica nanoparticles (PDMS/AMS-SiO2) through dip-coating accompanied by polymerization in situ. [2] Commercial polyurethane sponges soaked in the same solutions were used as controls, since, unlike in hydrogels, the liquid in these sponge systems is poorly bound to the polymer network. [3]以商业聚氨酯海绵为基础制造复合材料,该海绵经聚多巴胺改性,并通过浸涂组装法和随后的真空渗透涂有 BN。 [1] 在这方面,采用一种简便的方法制备了商业聚氨酯海绵吸附剂,该吸附剂通过浸涂和原位聚合制备聚(二甲基硅氧烷-共聚-烷基甲基硅氧烷)-二氧化硅纳米粒子(PDMS/AMS-SiO2)。 [2] 将浸泡在相同溶液中的商业聚氨酯海绵用作对照,因为与水凝胶不同,这些海绵系统中的液体与聚合物网络的结合很差。 [3]