Issue 13, 2016

Multi-shape memory polymers achieved by the spatio-assembly of 3D printable thermoplastic building blocks

Abstract

Multi-shape memory polymers were prepared by the macroscale spatio-assembly of building blocks in this work. The building blocks were methyl acrylate-co-styrene (MA-co-St) copolymers, which have the St-block-(St-random-MA)-block-St tri-block chain sequence. This design ensures that their transition temperatures can be adjusted over a wide range by varying the composition of the middle block. The two St blocks at the chain ends can generate a crosslink network in the final device to achieve strong bonding force between building blocks and the shape memory capacity. Due to their thermoplastic properties, 3D printing was employed for the spatio-assembly to build devices. This method is capable of introducing many transition phases into one device and preparing complicated shapes via 3D printing. The device can perform a complex action via a series of shape changes. Besides, this method can avoid the difficult programing of a series of temporary shapes. The control of intermediate temporary shapes was realized via programing the shapes and locations of building blocks in the final device.

Graphical abstract: Multi-shape memory polymers achieved by the spatio-assembly of 3D printable thermoplastic building blocks

Article information

Article type
Paper
Submitted
23 Jan 2016
Accepted
19 Feb 2016
First published
19 Feb 2016

Soft Matter, 2016,12, 3226-3233

Multi-shape memory polymers achieved by the spatio-assembly of 3D printable thermoplastic building blocks

H. Li, X. Gao and Y. Luo, Soft Matter, 2016, 12, 3226 DOI: 10.1039/C6SM00185H

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