Environmentally Responsive Fibers for Reinforced Concrete Composites | UVM Innovations | University of Vermont

Environmentally Responsive Fibers for Reinforced Concrete Composites

UVM Reference Number: C586
Summary:

The randomness of the orientation of the ER fibers allows the concrete structure to handle a much more diverse array of stresses.

Background:

Fiber-reinforced concrete composites have become popular in the construction industry due to their robust nature with regard to both compression and tension. These fibers, however, cannot be prestressed or post-tensioned in any practical way with the current standard of technology.

Technology Overview:

University of Vermont researchers have invented a method of efficiently prestressing a reinforced concrete composite using environmentally responsive (ER) fibers. Having the fibers prestressed upon the curing of the concrete allows them to apply a restoring compressive force before the structure experiences any tension, allowing the structure to apply even stronger forces in opposition to any tension it experiences. The inventors' method of pre-stressing takes advantage of a number of environmental changes that occur during the cement curing process, including the pH, moisture and temperature of the concrete medium during curing. In addition, construction by melt electrospinning, allows the ER fibers to be oriented randomly, such that the structure can resist tension and torsion forces from many directions.

Further Details:

  • Reinforced cementitous composite with In situ shrinking microfibers; Kim et al; Smart Materials and Structures; Vol 23, Num 3.
  • Interlaminar prestressing reinforcement of epoxy/glass fiber composites; Kim et al; Smart Mater. Struct. 28 (2019)

Benefits:

  • The randomness of the orientation of the ER fibers allows the concrete structure to handle a much more diverse array of stresses than the current standard of reinforced concrete.
  • Can be applied as a replacement for steel bar reinforcement or in addition to it.

Applications:

  • Load-bearing concrete structures such as garages.
  • Porous pavements, which currently suffer from low durability.
  • Asphalt pavement structures.
  • Potential uses outside of concrete composites in epoxy/glass composites.

Opportunity:

Looking for research and development partners and licensing opportunities.

Patents:

  • US Patent 11/027519B2

Seeking:

  • Development partner
  • Licensing
Patent Information:
Category(s):
Technology Classifications > Engineering
Inventors:
Patrick Lee
Ting Tan
Dryver Huston
For Information, Contact:
UVM Innovations UVMI.Case@uvm.edu
Keywords:
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