Accession Number:

ADA533253

Title:

Relationship Between Water Wettability and Ice Adhesion (Preprint)

Descriptive Note:

Journal article

Corporate Author:

MASSACHUSETTS INST OF TECH CAMBRIDGE DEPT OF CHEMICAL ENGINEERING

Report Date:

2010-10-21

Pagination or Media Count:

34.0

Abstract:

Ice formation and accretion may hinder the operation of many systems critical to national infrastructure, including airplanes, power lines, windmills, ships, and telecommunications equipment. Yet despite the pervasiveness of the icing problem, the fundamentals of ice adhesion have received relatively little attention in the scientific literature and it is not widely understood which attributes must be tuned to systematically design icephobic surfaces that are resistant to icing. Here we probe the relationships between advancingreceding water contact angles and the strength of ice adhesion to bare steel and twenty-one different test coatings 200-300 nm thick applied to the nominally smooth steel discs. Contact angles are measured using a commercially available goniometer while the average shear strengths of ice adhesion are evaluated with a custom-built laboratory-scale adhesion apparatus. The coatings investigated are comprised of commercially available polymers and fluorinated polyhedral oligomeric silsesquioxanes fluorodecyl POSS, a low surface energy additive known to enhance liquid repellency. Ice adhesion strength correlates strongly with the practical works of adhesion required to remove liquid water drops from the surfaces i.e., with the quantity 1 cos 952rec, and the average shear strength of ice adhesion was reduced by as much as a factor of 4.2 when bare steel discs were coated with fluorodecyl POSS- containing materials. We argue that any further appreciable reduction in ice adhesion strength will require textured surfaces, as no known materials exhibit receding water contact angles on smoothflat surfaces that are significantly above those reported here i.e., the values of 1 cos 952rec reported here have essentially reached a minimum for known materials.

Subject Categories:

  • Snow, Ice and Permafrost
  • Adhesives, Seals and Binders

Distribution Statement:

APPROVED FOR PUBLIC RELEASE