Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks
Here, we present an investigation of the triple-shape properties of star-shaped polyhedral oligomeric silsesquioxane-poly(ε-caprolactone) polyurethanes (SPOSS-PUs), which have three-dimensional network structures. In a typical ‘triple-shape functionalization process’, mostly consisting of two tensil...
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sg-ntu-dr.10356-965852020-06-01T10:26:44Z Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks Bothe, Martin Mya, Khine Yi Jie Lin, Esther Marie Yeo, Chee Chuan Lu, Xuehong He, Chaobin Pretsch, Thorsten School of Materials Science & Engineering Here, we present an investigation of the triple-shape properties of star-shaped polyhedral oligomeric silsesquioxane-poly(ε-caprolactone) polyurethanes (SPOSS-PUs), which have three-dimensional network structures. In a typical ‘triple-shape functionalization process’, mostly consisting of two tensile deformations at different temperatures, chain immobilization of the polymer network component poly(ε-caprolactone) (PCL) was successfully realized first through crystallization and then through vitrification. Subsequently, large parts of the respective strains were released under stress-free recovery conditions. The two-fold fixed (‘programmed’) specimens responded to heating with two independent length contractions (switching steps); the first shape change was associated with PCL devitrification and the second one with the melting of hitherto crystalline PCL. It was revealed that the triple-shape properties of SPOSS-PU networks considerably depend on PCL network chain length. When applying exactly the same ‘triple-shape creation procedure’, larger strain releases were detected in the first transition for polymers with a higher PCL network chain length, whereas the second transition was more accentuated for SPOSS-PU networks with a shorter PCL chain length. In the course of thermo-mechanical cycling, the formation of a neck during the second tensile deformation was repeatedly detected for SPOSS-PUs with higher PCL network chain length; in the subsequent recovery process the specimens even exhibited the highest total strain recoverability. Finally, gradual strain release could be achieved at temperatures below the PCL melting transition through the selection of up to four temperature holding steps, at which every time stable shapes were formed. 2013-06-13T06:38:17Z 2019-12-06T19:32:47Z 2013-06-13T06:38:17Z 2019-12-06T19:32:47Z 2012 2012 Journal Article Bothe, M., Mya, K. Y., Jie Lin, E. M., Yeo, C. C., Lu, X., He, C., et al. (2012). Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks. Soft Matter, 8(4), 965-972. 1744-683X https://hdl.handle.net/10356/96585 http://hdl.handle.net/10220/10344 10.1039/c1sm06474f en Soft matter © 2012 The Royal Society of Chemistry. |
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Here, we present an investigation of the triple-shape properties of star-shaped polyhedral oligomeric silsesquioxane-poly(ε-caprolactone) polyurethanes (SPOSS-PUs), which have three-dimensional network structures. In a typical ‘triple-shape functionalization process’, mostly consisting of two tensile deformations at different temperatures, chain immobilization of the polymer network component poly(ε-caprolactone) (PCL) was successfully realized first through crystallization and then through vitrification. Subsequently, large parts of the respective strains were released under stress-free recovery conditions. The two-fold fixed (‘programmed’) specimens responded to heating with two independent length contractions (switching steps); the first shape change was associated with PCL devitrification and the second one with the melting of hitherto crystalline PCL. It was revealed that the triple-shape properties of SPOSS-PU networks considerably depend on PCL network chain length. When applying exactly the same ‘triple-shape creation procedure’, larger strain releases were detected in the first transition for polymers with a higher PCL network chain length, whereas the second transition was more accentuated for SPOSS-PU networks with a shorter PCL chain length. In the course of thermo-mechanical cycling, the formation of a neck during the second tensile deformation was repeatedly detected for SPOSS-PUs with higher PCL network chain length; in the subsequent recovery process the specimens even exhibited the highest total strain recoverability. Finally, gradual strain release could be achieved at temperatures below the PCL melting transition through the selection of up to four temperature holding steps, at which every time stable shapes were formed. |
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School of Materials Science & Engineering |
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School of Materials Science & Engineering Bothe, Martin Mya, Khine Yi Jie Lin, Esther Marie Yeo, Chee Chuan Lu, Xuehong He, Chaobin Pretsch, Thorsten |
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Article |
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Bothe, Martin Mya, Khine Yi Jie Lin, Esther Marie Yeo, Chee Chuan Lu, Xuehong He, Chaobin Pretsch, Thorsten |
spellingShingle |
Bothe, Martin Mya, Khine Yi Jie Lin, Esther Marie Yeo, Chee Chuan Lu, Xuehong He, Chaobin Pretsch, Thorsten Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks |
author_sort |
Bothe, Martin |
title |
Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks |
title_short |
Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks |
title_full |
Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks |
title_fullStr |
Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks |
title_full_unstemmed |
Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks |
title_sort |
triple-shape properties of star-shaped poss-polycaprolactone polyurethane networks |
publishDate |
2013 |
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https://hdl.handle.net/10356/96585 http://hdl.handle.net/10220/10344 |
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1681058840052760576 |