3D Printable Modular Soft Elastomers from Physically Cross-linked Homogeneous Associative Polymers

IF 4.7 Q1 POLYMER SCIENCE ACS polymers Au Pub Date : 2024-01-04 DOI:10.1021/acspolymersau.3c00021
Myoeum Kim, Shifeng Nian, Daniel A. Rau, Baiqiang Huang, Jinchang Zhu, Guillaume Freychet, Mikhail Zhernenkov and Li-Heng Cai*, 
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Abstract

Three-dimensional (3D) printing of elastomers enables the fabrication of many technologically important structures and devices. However, there remains a critical need for the development of reprocessable, solvent-free, soft elastomers that can be printed without the need for post-treatment. Herein, we report modular soft elastomers suitable for direct ink writing (DIW) printing by physically cross-linking associative polymers with a high fraction of reversible bonds. We designed and synthesized linear-associative-linear (LAL) triblock copolymers; the middle block is an associative polymer carrying amide groups that form double hydrogen bonding, and the end blocks aggregate to hard glassy domains that effectively act as physical cross-links. The amide groups do not aggregate to nanoscale clusters and only slow down polymer dynamics without changing the shape of the linear viscoelastic spectra; this enables molecular control over energy dissipation by varying the fraction of the associative groups. Increasing the volume fraction of the end linear blocks increases the network stiffness by more than 100 times without significantly compromising the extensibility. We created elastomers with Young’s moduli ranging from 8 kPa to 8 MPa while maintaining the tensile breaking strain around 150%. Using a high-temperature DIW printing platform, we transformed our elastomers to complex, highly deformable 3D structures without involving any solvent or post-print processing. Our elastomers represent the softest melt reprocessable materials for DIW printing. The developed LAL polymers synergize emerging homogeneous associative polymers with a high fraction of reversible bonds and classical block copolymer self-assembly to form a dual-cross-linked network, providing a versatile platform for the modular design and development of soft melt reprocessable elastomeric materials for practical applications.

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由物理交联均相缔合聚合物制成的可 3D 打印模块化软弹性体
三维(3D)打印弹性体可以制造出许多具有重要技术意义的结构和设备。然而,开发无需后处理即可打印的可再加工、无溶剂的软弹性体仍是一项迫切需要。在此,我们报告了通过物理交联具有高比例可逆键的缔合聚合物,开发出适用于直接墨水写入(DIW)印刷的模块化软弹性体。我们设计并合成了线性-缔合-线性(LAL)三嵌段共聚物;中间嵌段是一种缔合聚合物,带有可形成双氢键的酰胺基团,末端嵌段聚合成硬玻璃态域,可有效起到物理交联的作用。酰胺基团不会聚合成纳米级团簇,只会减慢聚合物的动力学速度,而不会改变线性粘弹性光谱的形状;这样就可以通过改变缔合基团的比例来实现对能量耗散的分子控制。增加末端线性块的体积分数可将网络刚度提高 100 倍以上,而不会明显影响延展性。我们制造出了杨氏模量从 8 kPa 到 8 MPa 的弹性体,同时将拉伸断裂应变保持在 150% 左右。利用高温 DIW 打印平台,我们将弹性体转变成了复杂的、高度可变形的三维结构,而不涉及任何溶剂或打印后处理。我们的弹性体是 DIW 打印中最柔软的可再加工熔体材料。所开发的 LAL 聚合物将具有高比例可逆键的新兴均相缔合聚合物与经典嵌段共聚物自组装协同作用,形成双交联网络,为模块化设计和开发用于实际应用的软性熔体可再加工弹性体材料提供了一个多功能平台。
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