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Nanolamination

From Wikipedia, the free encyclopedia

Nanolamination is the production of materials that are fully dense, ultra-fine grained solids that exhibit a high concentration of interface defects. The properties of fabricated nanolaminates depend on their compositions and thicknesses.[1]

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Transcription

Production

Nanolaminates can be grown using atom-by-atom deposition techniques that are designed with different stacking sequences and layer thicknesses.

Electrolytic reduction

Electrolytic reduction allows the production of metals and metal alloys in sub-μm-thick layers. It can be employed to create alloys with properties such as improved toughness, strength, thermal properties and corrosion that are a function of the interfaces in the nanolayers. They can be created using a bath containing multiple metal ion elements. By changing the current at precise moments to select a different element, it can create a layered structure. Coatings of up to a centimeter thick have been created.[2]

It is claimed to offer the benefits of high-cost materials at much lower costs, because such materials can coat lower-cost materials that have other necessary properties such as strength.[3]

Commercial production was introduced in the 2010s by a new company named Modumetal.[4]

Atomic layer deposition

Main article: Atomic layer deposition

Many hybrid thin film oxides can be created using atomic layer deposition (ALD) with unique physical, chemical, and electronic properties. For example, a rough oxide layer can be further coated with a smooth oxide layer to provide a required surface texture. Properties may also depend on deposition temperature and the stratum to which the nanolaminate is applied.[5]

Performance

In autoclave testing, some nanolaminated alloys have shown 8 times the resistance of carbon steels to degradation and in some cases, no measurable degradation.[3]

Applications

Application include those that take advantage of enhanced mechanical properties or for devices such as energy storage and memory storage capacitors.[1]

Oil and gas

Corrosion-resistant, structural tubulars and casings are important infrastructure assets in the oil and gas industry. Tubulars and casings are subject to aggressive well conditions, serving to permit operations across extreme formation and production pressure differentials, in high temperatures and in highly corrosive environments that contain hydrogen sulfide (H
2S), carbon dioxide (CO
2) and chlorides.[4]

Modumetal produces pumps, valves and tubulars that for launch customers. The products are claimed to offer corrosion and wear protection through a durable, high toughness, nanolaminated metal alloy cladding.[4]

Electronics

Nanolaminate dielectrics can have efficient dielectric constant and high insulation characteristics. Dielectric materials with giant dielectric constants can be fabricated as modified single, binary and perovskite oxides.[1]

See also

References

  1. ^ a b c Azadmanjiri, Jalal; Berndt, Christopher C.; Wang, James; Kapoor, Ajay; Srivastavac, Vijay K.; Wen, Cuie (2014). "A review on hybrid nanolaminate materials synthesized by deposition techniques for energy storage applications". Journal of Materials Chemistry A. 2 (11): 3695–3708. doi:10.1039/C3TA14034B.
  2. ^ Bullis, Kevin (February 16, 2015). "Nano-Coated Steel Is 10 Times Stronger". MIT Technology Review. Retrieved 2015-08-28.
  3. ^ a b Fehrenbacher, Katie (August 25, 2015). "This startup can grow metal like a tree, and it's about to hit the big time". Fortune. Retrieved 2015-08-28.
  4. ^ a b c LOMASNEY, CHRISTINA (May 7, 2015). "Nanolaminated Cladding for Tubulars". Retrieved 2015-08-28.
  5. ^ Kääriäinen, Tommi; Cameron, David; Kääriäinen, Marja-Leena; Sherman, Arthur (17 May 2013). Atomic Layer Deposition: Principles, Characteristics, and Nanotechnology Applications. Wiley. pp. 1–. ISBN 978-1-118-74738-4.

External links

This page was last edited on 16 May 2024, at 22:11
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