后处理固化参数和伽马辐照对医用分级罐光聚合部件机械性能的影响

Natthawut Daoset, S. Inglam, S. Wanchat, N. Chantarapanich
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摘要

目的 本文旨在研究后固化温度、后固化时间和伽马射线辐照剂量对医用分级大桶光聚合部件的拉伸和压缩机械性能的影响。设计/方法/途径 使用自下而上的大桶光聚合机制造了由光聚合树脂制成的医用分级大桶光聚合试样。进行拉伸和压缩试验以评估其机械性能。试样分为未固化组和固化后组。温度后处理和/或伽马射线照射用于后固化试样。后固化参数包括 50°C、60°C 和 70°C,时间分别为 1、2、3 和 4 小时。研究结果后固化提高了医用分级罐光聚合部件拉伸和压缩试样的机械性能。后固化温度超过 50°C 或后固化时间超过 1 小时都不会显著改变或降低机械性能。因此,最佳的后固化条件是 50°C 的后固化温度和 1 小时的后固化时间。伽马射线照射可改善压缩机械性能,但会降低拉伸机械性能。更高的伽马射线辐照剂量会降低机械性能,并使部件更脆,尤其是剂量超过 25 kGy 时。此外,它还提高了人们对医用分级大桶光聚合部件过度伽马射线灭菌的认识。
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Effects of post-processing curing parameters and gamma irradiation on the mechanical properties of medical graded vat photopolymerization parts
Purpose This paper aims to investigate the influence of post-curing temperature, post-curing time and gamma ray irradiation dose upon the tensile and compressive mechanical properties of the medical graded vat photopolymerization parts. Design/methodology/approach Medical graded vat photopolymerization specimens, made from photopolymer resin, were fabricated using bottom-up vat photopolymerization machine. Tensile and compressive tests were conducted to assess the mechanical properties. The specimens were categorized into uncured and post-curing groups. Temperature post-processing and/or gamma irradiation exposure were for post-curing specimens. The post-curing parameters considered included temperature levels of 50°C, 60°C and 70°C, with 1, 2, 3 and 4 h periods. For the gamma irradiation, the exposure doses were 25, 50, 75 and 100 kGy. Findings Post-curing improved the mechanical properties of medical graded vat photopolymerization parts for both tensile and compressive specimens. Post-curing temperature greater than 50°C or a prolonged post-curing period of more than 1 h made insignificant changes or deterioration in mechanical properties. The optimal post-curing condition was therefore a 50°C post-curing temperature with 1 h post-curing time. Exposure to gamma ray improved the compressive mechanical properties, but deteriorated tensile mechanical properties. Higher gamma irradiation doses could decrease the mechanical properties and also make the part more brittle, especially for doses more than 25 kGy. Originality/value The obtained results would be beneficial to the medical device manufacturer who fabricated the invasive temporary contact personalized surgical instruments by vat photopolymerization technique. In addition, it also raised awareness in excessive gamma sterilization in the medical graded vat photopolymerization parts.
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