N
Noormohammed Saleema
Researcher at National Research Council
Publications - 13
Citations - 909
Noormohammed Saleema is an academic researcher from National Research Council. The author has contributed to research in topics: Contact angle & Wetting. The author has an hindex of 8, co-authored 13 publications receiving 789 citations. Previous affiliations of Noormohammed Saleema include Université du Québec & Université du Québec à Chicoutimi.
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Superhydrophobic aluminum alloy surfaces by a novel one-step process.
TL;DR: The study indicates that it is possible to fabricate superhydrophobic aluminum surfaces easily and effectively without involving the traditional two-step processes.
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Chemical nature of superhydrophobic aluminum alloy surfaces produced via a one-step process using fluoroalkyl-silane in a base medium.
Noormohammed Saleema,Noormohammed Saleema,Dilip K. Sarkar,Danick Gallant,Royston W. Paynter,X-Grant Chen +5 more
TL;DR: A correlation between the contact angle, rms roughnesses, and the chemical nature of the surface has been elucidated and a possible bonding mechanism of the FAS-17 molecules with the aluminum alloy surfaces has been suggested.
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A simple surface treatment and characterization of AA 6061 aluminum alloy surface for adhesive bonding applications
TL;DR: In this article, the effect of varying the treatment period on the adhesive bonding characteristics was studied and a bi-component epoxy adhesive was used to join the treated surfaces and the bond strength was evaluated via single lap shear (SLS) tests in pristine as well as degraded conditions.
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One-step fabrication process of superhydrophobic green coatings
TL;DR: In this paper, superhydrophobic silver films on copper (Cu) substrates can be created in just a one-step process via galvanic reactions by immersing the Cu substrates in silver nitrate solution containing benzoic acid, simplifying the complexity of two different steps involved in the former method.
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Thermal effect on superhydrophobic performance of stearic acid modified ZnO nanotowers
TL;DR: In this article, the thermal desorption of stearic acid on superhydrophobic zinc oxide nanotowers has been investigated and it is found that the stearics acid has completely disappeared at 350°C, making the sample hydrophilic.