Issue 24, 2022, Issue in Progress

Dynamic reversible adhesives based on crosslinking network via Schiff base and Michael addition

Abstract

It is of practical interest to obtain polymers with complex material properties in a simplified synthetic manner for a broader range of practical applications. In this work, we constructed a dynamic reversible adhesive based on branched polyamine (PA) and p-formylphenyl acrylate (FPA) by simultaneously performing Michael addition reaction and Schiff base reaction. Branched polyamines provide a large number of amino groups as reaction sites that can react with both carbon–carbon double bonds and aldehyde groups. This enables the branched polymeric adhesive system to have a large number of Schiff base bonds within it, an important property of Schiff base bonds is that they are dynamically reversible. This allows us to prepare adhesives with hyperbranched crosslinking networks and recycling properties, and we have verified that FPA–PA adhesives do not exhibit significant fatigue after multiple recycling through the gluing-destruction-gluing process. The resulting FPA–PA adhesives produce tough bonding on multi-substrates such as steel, aluminum, glass, PVC, PTFE, birch and moso bamboo, which exhibited by lap shear strength of 2.4 MPa, 1.7 MPa, 1.4 MPa, 1.3 MPa, 0.4 MPa, 1.6 MPa, and 1.8 MPa, respectively. The feasibility of the synthesis idea of simultaneous Michael addition reaction and Schiff base reaction was demonstrated, as well as the excellent performance and great application potential of FPA–PA adhesives to be recyclable on multi-substrates.

Graphical abstract: Dynamic reversible adhesives based on crosslinking network via Schiff base and Michael addition

Supplementary files

Article information

Article type
Paper
Submitted
09 Apr 2022
Accepted
12 May 2022
First published
18 May 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 15241-15250

Dynamic reversible adhesives based on crosslinking network via Schiff base and Michael addition

J. Ren, H. Yang, Y. Wu, S. Liu, K. Ni, X. Ran, X. Zhou, W. Gao, G. Du and L. Yang, RSC Adv., 2022, 12, 15241 DOI: 10.1039/D2RA02299K

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