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Sabtu, 28 Oktober 2017

A superhydrophobic coating is a nanoscopic surface layer that repels water. Droplets hitting this kind of coating can fully rebound in the shape of column or pancake.

Material used



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Superhydrophobic coatings can be made from many different materials. The following are known possible bases for the coating:

  • Manganese oxide polystyrene (MnO2/PS) nano-composite
  • Zinc oxide polystyrene (ZnO/PS) nano-composite
  • Precipitated calcium carbonate
  • Carbon nano-tube structures
  • Silica nano-coating

The silica-based coatings are perhaps the most cost effective to use. They are gel-based and can be easily applied either by dipping the object into the gel or via aerosol spray. In contrast, the oxide polystyrene composites are more durable than the gel-based coatings, however the process of applying the coating is much more involved and costly. Carbon nano-tubes are also expensive and difficult to produce with current technology. Thus, the silica-based gels remain the most economically viable option at present.

Types of superhydrophobic coatings



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  • Durable water repellent - This being used for fabrics in order to protect them from water.
  • Rain Repellent - This is made for car windshield for repelling rain water during rain in order to improve driving visibility.

Industrial uses



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In industry, super-hydrophobic coatings are used in ultra-dry surface applications. The coating causes an almost imperceptibly thin layer of air to form on top of a surface. Super-hydrophobic coatings are also found in nature; they appear on plant leaves, such as the Lotus leaf, and some insect wings. The coating can be sprayed onto objects to make them waterproof. The spray is anti-corrosive and anti-icing; has cleaning capabilities; and can be used to protect circuits and grids.

Superhydrophobic coatings have important applications in maritime industry. They can yield skin friction drag reduction for ships' hulls, thus increasing fuel efficiency. Such a coating would allow ships to increase their speed or range while reducing fuel costs. They can also reduce corrosion and prevent marine organisms from growing on a ship's hull.

In addition to these industrial applications, superhydrophobic coatings have potential uses in vehicle windshields to prevent rain droplets from clinging to the glass. The coatings also make removal of salt deposits possible without using fresh water. Furthermore, superhydrophobic coatings have the ability to harvest other minerals from seawater brine with ease. Despite the coating's many applications, safety for the environment and for workers is an issue. The International Maritime Organization has many regulations and policies about keeping water safe from potentially dangerous additives.

Superhydrophobic coatings rely on a delicate micro or nano structure for their repellenceâ€"this structure is easily damaged by abrasion or cleaning; therefore, the coatings are most used on things such as electronic components, which are not prone to wear. Objects subject to constant friction like boats hulls would require constant re-application of such a coating to maintain a high degree of performance.

Applications



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Due to the extreme repellence and in some cases bacterial resistance of hydrophobic coatings, there is much enthusiasm for their wide potential uses with surgical tools, medical equipment, textiles, and all sorts of surfaces and substrates. However, the current state of the art for this technology is hindered in terms of the weak durability of the coating making it unsuitable for most applications. Newer engineered surface textures on stainless steel are extremely durable and permanently hydrophobic. Optically these surfaces appear as a uniform matte surface but microscopically they consist of rounded depressions one to two microns deep over 25% to 50% of the surface. These surfaces are produced for buildings which will never need cleaning.

There are many non-chemical companies on the Internet offering super hydrophobic coatings for all sorts of unsuitable things. It is important to understand the science of these coatings before attempting to use this technology:

  • Instead of using fluorine atoms for repellence like many successful hydrophobic penetrating sealers (not super hydrophobic), superhydrophobic products are a coatingâ€"they work by creating a micro- or nano-sized structure on a surface which has super-repellent properties.
  • These very tiny structures are by their nature very delicate and very easily damaged by wear, cleaning or any sort of frictionâ€"this cannot be disputedâ€"if the structure is damaged even slightly it loses its superhydrophobic properties. This technology is based on the microstructure of the hairs of a lily pad which make water just roll off. Rub a lily leaf a little and it will no longer be superhydrophobic. Unlike a lily leaf, which can heal and grow new hairs, a coating will not do this.
  • As a result, unless advancements can resolve the identified weakness of this technology its applications are limited. It is used mainly in sealed environments which are not exposed to wear or cleaning, such as electronic components (like the inside of smart phones) and air conditioning heat transfer fins, to protect from moisture and prevent corrosion.

Surfaces can be made hydrophobic without the use of coating through the altering of their surface microscopic contours, as well. The basis of hydrophobicity is the creation of recessed areas on a surface whose wetting expends more energy than bridging the recesses expends. This so-called Wenzel-effect surface or lotus effect surface has less contact area by an amount proportional to the recessed area, giving it a high contact angle. The recessed surface has a proportionately diminished attraction foreign liquids or solids and permanently stays cleaner. This has been effectively used for roofs and curtain walls of structures that benefit from low or no maintenance.

See also



source : www.mypsdc.com

  • Lotus effect
  • Plant cuticle
  • Biomimetics
  • Hydrophobe

References





 
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