The rapid expansion of dynamic covalent chemistry world urges for materials not only possessing high mechanical properties and stretchability, but also including high reprocessability and reforming. Herein, aromatic disulfide-containing polysiloxanes elastomers with modified urea as chain-extender and crosslinker were first designed and fabricated. Dynamic crosslinks, including hydrogen bonding formed between urea and amide bonds, and aromatic disulfide are connected with polysiloxanes backbones through isocyanate (DTSA-HDI) reacted with systematically controlled aminopropyl groups in the side chains. Consequently, a series of ATPx-SS elastomers with polysiloxanes of different molecular weight and APPx-SS elastomers with different crosslinking densities are developed. The molar amount of DTSA-HDI has been proved to play a crucial role in adjusting the mechanical and thermal properties of the networks. Among all, ATP3-SS showed the best stretchability, of which the elongation at break was as high as 780%. APP1-SS achieved the highest tensile strength of 2.60 MPa. Besides, it has outstanding reprocessability and can be reprocessed and reformed without much decline of tensile strength after several cycles of hot-pressing. These remarkable properties demonstrate that the aromatic disulfidecontaining elastomers are competitive to those un-filled polysiloxanes elastomers based on dynamic bonds ever reported.

• Institution
  华南农业大学