Optimizing Silicone Content In Thermoplastic Silicone-urethanes Used In Chronically-implanted Medical Devices

机译：优化用于慢性植入医疗设备的热塑性硅氨酯中的硅含量

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Considering the biostability and tensile property curves, and that strain levels in well-designed devices are 400%, we conclude that a nominal 85A silicone-polycarbonate urethane will perform optimally at = 30% total silicone by weight. Large, load-bearing components used in orthopedic applications, for example, require lower silicone levels for maximum toughness. In components with greater surface-to-volume, like lead insulation, somewhat higher silicone levels may be indicated. Under the same test conditions harder homologues are expected to require less silicone, based on the well-established increase in biostability with hardness in silicone-free TPUs. Future testing will include harder grades of both silicone-polycarbonate-urethanes and silicone-polyether-urethanes.

机译：考虑到生物稳定性和拉伸性能曲线，以及设计良好的设备中的应变水平<< 400％，我们得出结论：名义上的85A有机硅-聚碳酸酯-氨基甲酸酯在总有机硅重量为30％时性能最佳。例如，整形外科应用中使用的大型承重部件需要较低的硅酮含量才能实现最大的韧性。在表面体积较大的组件（如铅绝缘）中，可能会指示较高的硅酮含量。在相同的测试条件下，基于公认的无硅TPU的生物稳定性和硬度的提高，预计较硬的同系物将需要较少的硅。未来的测试将包括更高等级的有机硅-聚碳酸酯-氨基甲酸酯和有机硅-聚醚-氨基甲酸酯。

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《Society for Biomaterials Transactions of the 30th Annual Meeting amp; Exposition vol.28: New Applications and Technologies; 20050427-30; Memphis,TN(US)》|2005年|P.160|共1页
会议地点 MemphisTN(US)
作者
R. Ward; Y. Tian; K. White; K. McCrea; E. Christenson; J. Anderson; M. Ebert; K. Stokes;
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The Polymer Technology Group, Berkeley, CA;

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正文语种 eng
中图分类 TB347;
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机译：路博润投资扩大医疗器械用有机硅和热塑性塑料生产设施
2. Effect of structural variations on the synthesis and structure-property behavior of segmented silicone-urethane and silicone-urea copolymers: I. polymer synthesis [J] . Iskender Yilgor, Emel Yilogr, Burcin Erenturk, Polymer Preprints . 2004,第1期

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3. Effect of structural variations on the synthesis and structure-property behavior of segmented silicone-urethane and silicone-urea copolymers: II. structure-property behavior [J] . Jignesh P. Sheth, Iskender Yilgor, Emel Yilgor, Polymer Preprints . 2004,第1期

机译：结构变化对分段的硅氧烷-尿烷和硅氧烷-脲共聚物的合成和结构性质行为的影响：II。结构属性行为
4. Optimizing Silicone Content In Thermoplastic Silicone-urethanes Used In Chronically-implanted Medical Devices [C] . R. Ward, Y. Tian, K. White, Society for Biomaterials Transactions Annual Meeting Exposition . 2005

机译：优化在慢性植入的医疗装置中使用的热塑性硅氧烷 - 氨基甲酸硅氧烷含量
5. Compatibilization of thermoplastic/silicone blends. [D] . Maric, Milan. 1999

机译：热塑性/硅氧烷共混物的相容性。
6. IMPROVEMENTS IN POLLUTANT MONITORING: OPTIMIZING SILICONE FOR CO-DEPLOYMENT WITH POLYETHYLENE PASSIVE SAMPLING DEVICES [O] . Steven G. O’Connell, Melissa A. McCartney, L. Blair Paulik, -1

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7. Poly(N-vinylcaprolactam) and Salicylic Acid Polymeric Prodrug Grafted onto Medical Silicone to Obtain a Novel Thermo- and pH-Responsive Drug Delivery System for Potential Medical Devices [O] . José M. Cornejo-Bravo, Kenia Palomino, Giovanni Palomino-Vizcaino, 2021

机译：嫁接到医用硅氧烷上的聚（N-乙烯基己内酰胺）和水杨酸聚合物前药，以获得用于潜在医疗装置的新型热和pH响应药物输送系统
8. Interpenetrating Polymers Based Upon Silicone Rubber as Materials for Medical Devices. [R] . morgan, m. s. 1975

机译：基于硅橡胶作为医疗器械材料的互穿聚合物。

Optimizing Silicone Content In Thermoplastic Silicone-urethanes Used In Chronically-implanted Medical Devices

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