Preparation and Characterization of Artificial Spider Silk Produced through Microchannel Techniques

Journal of Material Sciences & Engineering Pub Date : 2017-10-31 DOI:10.4172/2169-0022.1000383

S. Abdalla, A. Obaid, F. Al-Marzouki, F. Bahabri

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引用次数: 2

Abstract

Spider silk (SS) is naturally tough; however, it turns soft when wet by water. Spiders produce high-quality silk threads by adjusting the molecular assemblage of SS-proteins and the arrangements structure of threads and recombinant spider dragline silk (RSDS). The general wet spinning techniques for producing recombinant spidroins results in uncorrected explanation to the natural spinning technique. In this study, we use tailored-SS with relative low molecular weight of 47 kD to produce a water-soluble RSDS protein. We built a microfluidic ship and used it to spun SS using aqueous solutions-micro-technique (wet spinning). This was done in order to mimic the spider-spinning processes using a steady post-spin drawing process. We succeeded to produce assemblies of spidroins with fibril structure. Then, compact constituting of micro-threads followed these wet spinning processes. Wet spinning was followed by improving the orientation, crystalline structure, and fibril melting of the hierarchical structure. The initial mechanical characterization (tensile strength) of the RSDSs attained about 510 MPa with respective extension 44%.

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微通道技术合成人造蜘蛛丝的制备与表征

蜘蛛丝(SS)天生坚韧;然而，当它被水弄湿时，它会变软。蜘蛛通过调整ss蛋白的分子组合和丝的排列结构以及重组蜘蛛拖丝(RSDS)来生产高质量的蛛丝。一般的湿法纺丝生产重组蛛丝的方法对自然纺丝技术的解释不正确。在本研究中，我们使用相对较低的分子量为47 kD的定制ss来制备水溶性RSDS蛋白。我们建造了一个微流控船，并利用它用水溶液-微技术(湿纺)纺出SS。这样做是为了模拟蜘蛛纺丝过程，使用稳定的纺丝后绘图过程。我们成功地制造出具有纤维结构的蜘蛛合体。然后，微丝紧凑型构成遵循这些湿纺过程。湿法纺丝后，分层结构的取向、结晶结构和纤维熔点得到改善。RSDSs的初始力学性能(抗拉强度)达到510 MPa左右，拉伸强度分别为44%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Material Sciences & Engineering

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