English

Bioinspired Materials with Self-Adaptable Mechanical Properties

Applied Physics 2019-12-13 v1 Materials Science Soft Condensed Matter Adaptation and Self-Organizing Systems

Abstract

Natural structural materials, such as bone and wood, can autonomously adapt their mechanical properties in response to loading to prevent failure. They smartly control the addition of material in locations of high stress by utilizing locally available resources guided by biological signals. On the contrary, synthetic structural materials have unchanging mechanical properties limiting their mechanical performance and service life. Here, a material system that autonomously adapts its mechanical properties in response to mechanical loading is reported inspired by the mineralization process of bone. It is observed that charges from piezoelectric scaffolds can induce mineralization from media with mineral ions. The material system adapts to mechanical loading by inducing mineral deposition in proportion to the magnitude of the loading and the resulting piezoelectric charges. Moreover, the mechanism allows a simple one-step route for making graded materials by controlling stress distribution along the scaffold. The findings can pave the way for a new class of self-adaptive materials that reinforce the region of high stress or induce deposition of minerals on the damaged areas from the increase in stress to prevent/mitigate failure. They can also contribute to addressing the current challenges of synthetic materials for load-bearing applications from self-adaptive capabilities.

Keywords

Cite

@article{arxiv.1912.06026,
  title  = {Bioinspired Materials with Self-Adaptable Mechanical Properties},
  author = {Santiago Orrego and Zhezhi Chen and Urszula Krekora and Decheng Hou and Seung-Yeol Jeon and Matthew Pittman and Carolina Montoya and Yun Chen and Sung Hoon Kang},
  journal= {arXiv preprint arXiv:1912.06026},
  year   = {2019}
}

Comments

under review in Advanced Materials

R2 v1 2026-06-23T12:44:13.860Z