Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control
Shrinkage is observed in many electrospun membranes. The stretched conformation of the macromolecular chains has been proposed as the possible cause. However, so far, our understanding of the fundamentals is still qualitative and cannot provide much help in the shrinkage control. In this paper, base...
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sg-ntu-dr.10356-1593922022-06-15T08:40:11Z Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control Fang, Feiyu Wang, Han Wang, Huaquan Huang, Wei Min Chen, Yahui Cai, Nian Chen, Xindu Chen, Xin School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Electrospinning Shrinkage Shrinkage is observed in many electrospun membranes. The stretched conformation of the macromolecular chains has been proposed as the possible cause. However, so far, our understanding of the fundamentals is still qualitative and cannot provide much help in the shrinkage control. In this paper, based on the crimped fibers after stimulus-induced shrinkage, a clear evidence of buckling, the gradient pre-strain field in the cross-section of the electrospun fibers, which is the result of a gradient solidification field and a tensile force in the fibers during electrospinning, is identified as the underlying mechanism for the stimulus-induced shrinkage. Subsequently, two buckling conditions are derived. Subsequently, a series of experiments are carried out to reveal the influence of four typical processing parameters (namely, the applied voltage, solution concentration, distance between electrodes, and rotation speed of collector), which are highly relevant to the formation of the gradient pre-strain field. It is concluded that there are some different ways to achieve the required shrinkage ratios in two in-plane directions (i.e., the rotational and transverse directions of the roller collector). Some of the combinations of these parameters are more effective at achieving high uniformity than others. Hence, it is possible to optimize the processing parameters to produce high-quality membranes with well-controlled shrinkage in both in-plane directions. Published version This work was financially supported by Project of Jihua Laboratory (No.X190071UZ190), Foshan Science and Technology Innovation Project (No.2020001004407), the Science and Technology Program of Guangzhou, China (No. 202102010251). 2022-06-15T08:40:11Z 2022-06-15T08:40:11Z 2021 Journal Article Fang, F., Wang, H., Wang, H., Huang, W. M., Chen, Y., Cai, N., Chen, X. & Chen, X. (2021). Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control. Micromachines, 12(8), 920-. https://dx.doi.org/10.3390/mi12080920 2072-666X https://hdl.handle.net/10356/159392 10.3390/mi12080920 34442542 2-s2.0-85112629329 8 12 920 en Micromachines © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Mechanical engineering Electrospinning Shrinkage Fang, Feiyu Wang, Han Wang, Huaquan Huang, Wei Min Chen, Yahui Cai, Nian Chen, Xindu Chen, Xin Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| description |
Shrinkage is observed in many electrospun membranes. The stretched conformation of the macromolecular chains has been proposed as the possible cause. However, so far, our understanding of the fundamentals is still qualitative and cannot provide much help in the shrinkage control. In this paper, based on the crimped fibers after stimulus-induced shrinkage, a clear evidence of buckling, the gradient pre-strain field in the cross-section of the electrospun fibers, which is the result of a gradient solidification field and a tensile force in the fibers during electrospinning, is identified as the underlying mechanism for the stimulus-induced shrinkage. Subsequently, two buckling conditions are derived. Subsequently, a series of experiments are carried out to reveal the influence of four typical processing parameters (namely, the applied voltage, solution concentration, distance between electrodes, and rotation speed of collector), which are highly relevant to the formation of the gradient pre-strain field. It is concluded that there are some different ways to achieve the required shrinkage ratios in two in-plane directions (i.e., the rotational and transverse directions of the roller collector). Some of the combinations of these parameters are more effective at achieving high uniformity than others. Hence, it is possible to optimize the processing parameters to produce high-quality membranes with well-controlled shrinkage in both in-plane directions. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Fang, Feiyu Wang, Han Wang, Huaquan Huang, Wei Min Chen, Yahui Cai, Nian Chen, Xindu Chen, Xin |
| format |
Article |
| author |
Fang, Feiyu Wang, Han Wang, Huaquan Huang, Wei Min Chen, Yahui Cai, Nian Chen, Xindu Chen, Xin |
| author_sort |
Fang, Feiyu |
| title |
Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| title_short |
Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| title_full |
Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| title_fullStr |
Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| title_full_unstemmed |
Stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| title_sort |
stimulus-responsive shrinkage in electrospun membranes: fundamentals and control |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159392 |
| _version_ |
1736856366584168448 |