Rheological Analysis of Low Viscosity Hydrogels for 3D Bio-Printing Processes

Slesha Tuladhar, Cartwright Nelson, A. Habib
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引用次数: 2

Abstract

Following the success of 3D printing with synthetic polymers like ABS, FLA, Nylon, etc., scientists and researchers have been putting efforts into fabricating bio-compatible materials. It has not only broadened the field of bioengineering and manufacturing but also regenerative medicine. Unlike the traditional 3D printing process, additive bio-manufacturing, also known as 3D bio-printing has a lot of challenges like cell survivability and proliferation, and the mechanical properties of the biomaterials which involve printability and the ability to hold its structural integrity. Proper design of experiments with extensive rheological investigation can help identify useful mechanical property ranges which are directly related to the geometric fidelity of 3D bio-printed scaffolds. Therefore, to investigate the printability of a low viscosity Alginate-Carboxymethyl Cellulose (CMC), multiple concentrations of the mixture were tested maintaining a 8% (w/v) solid content. A set of rheological tests such as the Steady Rate Sweep Test, Three Point Thixotropic Test (3ITT), and Amplitude test were performed. The outcome of those tests showed that the rheological properties can be controlled with the percentage of CMC in the mixtures. The fabricated filaments and scaffolds in the 5 combinations of CMC percentages were analyzed for flowability and shape fidelity. The rheological results and the printability and shape fidelity results were analyzed.
3D生物打印低粘度水凝胶的流变学分析
随着ABS、FLA、尼龙等合成聚合物的3D打印成功,科学家和研究人员一直在努力制造生物相容性材料。它不仅拓宽了生物工程和制造领域,也拓宽了再生医学领域。与传统的3D打印工艺不同,增材生物制造也被称为3D生物打印,它面临着许多挑战,比如细胞的生存能力和增殖能力,以及生物材料的机械性能,包括可打印性和保持其结构完整性的能力。适当设计具有广泛流变学研究的实验可以帮助确定与3D生物打印支架几何保真度直接相关的有用力学性能范围。因此,为了研究低粘度海藻酸盐-羧甲基纤维素(CMC)的可印刷性,测试了多种浓度的混合物,保持8% (w/v)的固体含量。进行了一组流变学测试,如稳定速率扫描测试、三点触变测试(3ITT)和幅度测试。试验结果表明,CMC的掺量可以控制混合料的流变性能。分析了5种CMC百分比组合下制备的纤维和支架的流动性和形状保真度。分析了材料的流变性、可打印性和形状保真度。
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CiteScore
10.90
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