Frost formation and ice adhesion on superhydrophobic surfaces
GE Global Research (United States) · Massachusetts Institute of Technology
Abstract
We study frost formation and its impact on icephobic properties of superhydrophobic surfaces. Using an environmental scanning electron microscope, we show that frost nucleation occurs indiscriminately on superhydrophobic textures without any particular spatial preference. Ice adhesion measurements on superhydrophobic surfaces susceptible to frost formation show increased adhesion over smooth surfaces with a strong linear trend with the total surface area. These studies indicate that frost formation significantly compromises the icephobic properties of superhydrophobic surfaces and poses serious limitations to the use of superhydrophobic surfaces as icephobic surface treatments for both on-ground and in-flight…
Citation impact
- FWCI
- 14.17
- Percentile
- 100%
- References
- 25
Authors
5- KKKripa K. VaranasiCorresponding
GE Global Research (United States), Massachusetts Institute of Technology
- TDTao Deng
GE Global Research (United States), Massachusetts Institute of Technology
- JDJonathan D. Smith
GE Global Research (United States), Massachusetts Institute of Technology
- MFMing F. Hsu
GE Global Research (United States), Massachusetts Institute of Technology
- NBNitin Bhate
GE Global Research (United States), Massachusetts Institute of Technology
Topics & keywords
- Frost (temperature)
- Materials science
- Adhesion
- Nucleation
- Composite material
- Ice nucleus
- Scanning electron microscope
- Nanotechnology