Effect of Surface Preparation on Corrosion Resistance of Electrochemically Deposited Ni-Mo Alloys in the Presence 1-Methyl-Imidazolium Chloride Ionic Liquid

The article presents the influence of the applied method used for removing the varnish coat on the corrosion resistance of the car body sheet. The tests were carried out on samples prepared from factory-painted car body elements with pearlescent, metallized and acrylic varnish. Removal of the varnish coat was performed by sandpaper grinding, glass bead blasting, disc blaze rapid stripping, soda blasting and abrasive blasting with plastic granules. The average thickness of the factory-painted coating depending on the type of lacquer ranged from about 99 to 140 µm. On the other hand, after removing the varnish, the thickness of the protective zinc coating ranged from 2 to 12.7 µm. The highest values of the zinc coating were obtained for samples in which the varnish was removed by the method such as soda blasting and abrasive blasting with plastic granules. For these two methods of surface preparation, the damage to the zinc layer protecting the steel against corrosion is the smallest and the percentage of zinc in the surface layer ranges from 58% to 78%. The final stage of the research was to test the samples after removing the varnish coat in a two-hour exposure to the corrosive environment in a salt spray chamber. Samples with the surface prepared by grinding with sandpaper reached the level of surface rusting Ri 5, while in the case of soda blasting and the use of plastic granules, no corrosion centers were observed on the surface of the car body sheet.

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Universal Charge Quenching and Stability of Proteins in 1-Methyl-3-alkyl (Hexyl/Octyl) Imidazolium Chloride Ionic Liquid Solutions

The Journal of Physical Chemistry B ◽

10.1021/jp3049108 ◽

2012 ◽

Vol 116 (36) ◽

pp. 11065-11074 ◽

Cited By ~ 47

Author(s):

Kamla Rawat ◽

H. B. Bohidar

Keyword(s):

Ionic Liquid ◽

Imidazolium Chloride ◽

Liquid Solutions

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The effect of surface preparation and of deformation on the pitting and anodic dissolution of Fe-Cr alloys

Corrosion Science ◽

10.1016/s0010-938x(68)80004-6 ◽

1968 ◽

Vol 8 (7) ◽

pp. 491-498 ◽

Cited By ~ 14

Author(s):

Robert P. Frankenthal

Keyword(s):

Anodic Dissolution ◽

Surface Preparation ◽

Effect Of Surface

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Durability of Enamel Bonding Using Two-step Self-etch Systems on Ground and Unground Enamel

Operative Dentistry ◽

10.2341/07-42 ◽

2008 ◽

Vol 33 (1) ◽

pp. 79-88 ◽

Cited By ~ 48

Author(s):

A. D. Loguercio ◽

S. K. Moura ◽

A. Pellizzaro ◽

K. Dal-Bianco ◽

R. T. Patzlaff ◽

...

Keyword(s):

Bond Strength ◽

Clinical Relevance ◽

Water Storage ◽

Surface Preparation ◽

The Self ◽

Self Etch ◽

Effect Of Surface

Clinical Relevance The effect of surface preparation was adhesive-dependent. Improvements in resin-enamel bond strength after enamel preparation were observed only for AdheSE and Optibond Solo plus Self-Etch Primer. Among the self-etch systems, mild, self-etch Clearfil SE Bond showed the highest bond strength values. No degradation of resin-enamel bonds was observed after 12 months of water storage, regardless of the adhesive tested.

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Imidazolium chloride-based ionic liquid-assisted improvement of lipase activity in organic solvents

Engineering in Life Sciences ◽

10.1002/elsc.201000154 ◽

2011 ◽

Vol 11 (3) ◽

pp. 259-263 ◽

Cited By ~ 15

Author(s):

Somayeh Daneshjoo ◽

Neda Akbari ◽

Abbas Akhavan Sepahi ◽

Bijan Ranjbar ◽

Ramezan-Ali Khavarinejad ◽

...

Keyword(s):

Ionic Liquid ◽

Organic Solvents ◽

Lipase Activity ◽

Imidazolium Chloride

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Pretreatment of Fir Powder and Its Dissolution in Ionic Liquid of 1-(2-Hydroxylethyl)-3-Ethylene Imidazolium Chloride

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.236-238.87 ◽

2011 ◽

Vol 236-238 ◽

pp. 87-90

Author(s):

Li Ying Guo

Keyword(s):

High Pressure ◽

Ionic Liquid ◽

Dissolution Rate ◽

Mass Fraction ◽

Wood Powder ◽

Imidazolium Chloride ◽

Chemical Structures ◽

Good Solubility ◽

Temperature And Pressure ◽

Pressure Dissolution

Ionic liquid, 1-(2-hydroxylethyl)-3-ethylene imidazolium chloride ([HeVIM]Cl) was synthesized and its chemical structures was examined by FTIR and 1HNMR. Fir powder was extracted with a mixture of benzene/ethanol or activated with 25% (mass fraction) NaOH under normal temperature and pressure, microwave and high pressure. Dissolution of the pretreated wood powder in [HeVIM]Cl by microwave (90°C, 400w) was studied. The results showed that the ionic liquid [HeVIM]Cl exhibited a good solubility. Wood powder pretreated with 25% NaOH under high pressure had the lowest crystallinity (2.4%) and the highest dissolution rate (21.6%).

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Influence of Impurities on the High Temperature Corrosion And Reaction Kinetics of Zirconium in Hydrochloric Acid

CORROSION ◽

10.5006/0010-9312-18.3.103 ◽

1962 ◽

Vol 18 (3) ◽

pp. 103t-115t ◽

Cited By ~ 4

Author(s):

W. E. KUHN

Keyword(s):

Corrosion Resistance ◽

Reaction Kinetics ◽

Surface Preparation ◽

High Purity Grade ◽

Nickel Chromium ◽

Formed Precipitate ◽

Electrolyte Surface ◽

Iron Nickel ◽

Specific Impurity ◽

Purity Grade

Abstract The corrosion of zirconium of four different analyses including iodide, Hf-free reactor grade, an Hf-containing high purity grade, and an Hf-containing low purity grade zirconium, has been studied at 150–250 C in an aqueous solution containing 20 percent HCl. Studies of the reaction kinetics and surface phenomena have been made in extensive experiments. The results of the experimental work are discussed with detailed consideration being given to the role of impurities, the heterogeneous nature of corrosion, the influence of the electrolyte, surface preparation and diffusion barriers. It was concluded in general that small concentrations of specific impurity elements which formed precipitate phases had a powerful influence on the dissolution rate of zirconium and the resistance of primordial oxidic protective films. Iron, nickel, chromium, manganese, and silicon as impurities are believed to be most detrimental to the corrosion resistance of annealed zirconium in the form of precipitate particles acting as anodic corrosion centers. Various ways of improving the corrosion resistance of zirconium in HCl are either suggested or implied in the experimental results and their discussion. 6.3.20, 4.3.2, 3.7.2

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