Stress-localized durable icephobic surfaces

Icephobic surfaces have daily critical impact on human lives in cold climates, with uses ranging from aviation systems and infrastructure to energy systems. However, creation of these surfaces for low-temperature applications remains difficult. Non-wetting, liquid-infused and hydrated surfaces have...

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Veröffentlicht in:	Materials horizons 2019-01, Vol.6 (4), p.758-766
Hauptverfasser:	Irajizad, Peyman, Al-Bayati, Abdullah, Eslami, Bahareh, Shafquat, Taha, Nazari, Masoumeh, Jafari, Parham, Kashyap, Varun, Masoudi, Ali, Araya, Daniel, Ghasemi, Hadi
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Sprache:	eng
Schlagworte:	Adhesion tests Adhesive strength Cold weather Durability Ice accumulation Icephobicity Organic chemistry Production costs Wetting
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creator	Irajizad, Peyman Al-Bayati, Abdullah Eslami, Bahareh Shafquat, Taha Nazari, Masoumeh Jafari, Parham Kashyap, Varun Masoudi, Ali Araya, Daniel Ghasemi, Hadi
description	Icephobic surfaces have daily critical impact on human lives in cold climates, with uses ranging from aviation systems and infrastructure to energy systems. However, creation of these surfaces for low-temperature applications remains difficult. Non-wetting, liquid-infused and hydrated surfaces have inspired routes for development of icephobic surfaces. However, high ice adhesion strength (∼20–100 kPa) and subsequent ice accretion, low long-term mechanical and environmental durability and high production cost have restricted their applications. Here, we lay the fundamentals of a new physical concept called stress-localization to develop icephobic surfaces with ice adhesion in the order of 1 kPa and exceptional mechanical, chemical and environmental durability.
doi_str_mv	10.1039/C8MH01291A
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subjects	Adhesion tests Adhesive strength Cold weather Durability Ice accumulation Icephobicity Organic chemistry Production costs Wetting
title	Stress-localized durable icephobic surfaces
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