海洋环境中3D打印材料上生物污损的比较

ty10086 提交于 周三, 08/25/2021 - 15:35
文章英文标题
Comparison of biofouling on 3D-printing materials in the marine environment
正文
3D打印在海洋环境中的应用日益多样化,可用于定制或替代仪器和基础设施的组件。由于海洋生物污损会干扰此类应用的性能,在物种扩散中发挥重要作用,因此需要了解生物污损对所使用材料的动力学。本研究比较了熔融沉积法打印的聚己内酯( PCL )、体视光刻法打印的VisiJet®SL Clear和PolyJet打印的VeroClea ™等常用3D打印聚合物以及用于生物污损研究的聚二甲基硅氧烷( PDMS )和玻璃等对比材料的生物污损和材料性能的关系。2周龄和4周龄生物膜的细菌组合在所有材料上相似,以蓝藻和变形杆菌为主。材料间12周后的宏观污染程度差异显著,玻璃复盖率最高( 98.4 % ),PCL复盖率最低( 86.8 % ),宏观雾化器组合差异显著,3D打印聚合物的微藻数量普遍少于PDMS和玻璃,苔藓植物的包裹率也高于PDMS和玻璃。PCL是最极端的3D打印材料,最少的微藻和大多数苔藓植物(乔木化和镶嵌结合)。宏观污垢复盖率与材料疏水性、弹性模量、硬度或粗糙度无显著相关。相比之下,宏观雾化器组合结构与硬度的关系具有统计学意义,与疏水性的关系略显著(分别解释了组合结构变异的19.0 %和8.6 % )。PCL上生物污垢复盖率的降低和物种组成的改变可能有利于PCL在海洋3D打印中的应用,但需要考虑材料随时间的降解等其他因素。
文章内容(英文)
3D printing has an increasing variety of applications in the marine environment for customized or replaceable components of instrumentation and infrastructure. Because marine biofouling can interfere with the performance of such applications and plays an important role in species dispersal, there is a need to understand biofouling dynamics on the materials used. This study compared biofouling on common 3D-printing polymers printed by common methods - polycaprolactone (PCL) printed by fused deposition modelling, VisiJet® SL Clear printed by stereolithography, and VeroClear™ printed by PolyJet, as well as the comparison materials polydimethylsiloxane (PDMS, used in many experimental biofouling studies) and glass - and related fouling to material properties. Bacterial assemblages in 2- and 4-week old biofilms were similar on all materials, dominated by cyanobacteria and proteobacteria. The extent of macrofouling after 12 weeks differed significantly among materials, with the greatest coverage on glass (98.4%) and the least on PCL (86.8%). Macrofouler assemblages differed significantly, with 3D-printing polymers generally having less microalgae and more encrusting bryozoans than PDMS and glass. PCL was the most extreme of the 3D-printing materials in having the least microalgae and most bryozoans (arborescent and encrusting combined). Macrofouling coverage was not significantly related to material hydrophobicity, elastic modulus, hardness, or roughness. In contrast, macrofouler assemblage structure had a statistically significant relationship to hardness and a marginally significant relationship to hydrophobicity (explaining 19.0% and 8.6% of the variation in the assemblages, respectively). The reduced biofouling coverage and altered species composition on PCL may be advantageous for using PCL in marine applications of 3D printing, although other factors should be considered such as material degradation over time.
来源出处
Journal|[J]International Biodeterioration & BiodegradationVolume 164, 2021.
谷歌学术影响力
[db:学术影响力]
DOI
https://doi.org/10.1016/J.IBIOD.2021.105293

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