TITLE

ALUMINUM Q&A

AUTHOR(S)
ANDERSON, TONY
PUB. DATE
April 2011
SOURCE
Welding Journal;Apr2011, Vol. 90 Issue 4, p14
SOURCE TYPE
Trade Publication
DOC. TYPE
Article
ABSTRACT
The article presents an answer to a question on corrosion behavior of aluminum and its alloys.
ACCESSION #
60100395

 

Related Articles

  • Inhibition de la corrosion de l'alliage d'aluminium 6063 au moyen de composés inorganiques dans une solution de chlorure de sodium à 3 %. Bazzi, L; Salghi, R; Zine, E; Issami, S El; Kertit, S; Hammouti, B // Canadian Journal of Chemistry;Jan2002, Vol. 80 Issue 1, p106 

    Some inorganic compounds have been tested as corrosion inhibitors for 6063 aluminium alloy in 3% NaCl by electrochemical and metalographic methods. The compounds were MoO[sub 4] [sup 2–] , CrO[sub 4] [sup 2–] , NO[sub 2] [sup –] oxo-anions and Li[sup +] and Mg[sup 2+]...

  • Characterization and corrosion protection properties of polypyrrole / montmorillonite electropolymerized onto aluminium alloy 1100. Castagno, Kátia R. L.; Dalmoro, Viviane; Mauler, Raquel S.; Azambuja, Denise S. // Journal of Polymer Research;Sep2010, Vol. 17 Issue 5, p647 

    Films of Polypyrrole/Montmorillonite (PPy/MT) clays were electropolymerized potentiostatically on aluminium alloy 1100, using sodium dodecylbenzenesulfonate (SDBS) as a dopant. Two clay species were used: Na+-Montmorillonite (MT-Na) and modified-Montmorillonite (MT-M). The characterization of...

  • Quantifying Paint System Performance. Shaw, George // Products Finishing;Nov2001, Vol. 66 Issue 2, p50 

    Introduces a quantitative method developed for evaluating paint performance. Foundation for the coating system; Benchmark for pretreating aluminum alloys for the military; Protocol used for establishing corrosion resistance; Failure criteria for steel and galvanized surfaces; Variety of tests...

  • Chemical oxidation of lithium-containing aluminum alloy 1424. Oleinik, S.; Zimina, Yu.; Karimova, S.; Tararaeva, T. // Protection of Metals & Physical Chemistry of Surfaces;Dec2010, Vol. 46 Issue 7, p812 

    The possibility of obtaining protective conversion coatings on the surface of lithium-containing aluminum alloy 1424 in chromate-free conversion solutions IFKhANAL-1 and IFKhANAL-3 is shown. The kinetics of formation, composition, and protective properties of these coatings are studied. It is...

  • Reliability-based minimal sample factor formulation for a corrosion damage assessment in aluminium alloy plates. Xiong, J. J.; Shenoi, R. A.; Qiu, H. Y. // Journal of Strain Analysis for Engineering Design (Professional ;Nov2005, Vol. 40 Issue 8, p801 

    Accelerated corrosion tests and atmospheric exposure tests are conducted to investigate the corrosion performance of LY12CZ aluminium alloy. Based on the experimental data, the corrosion depth at different corrosion times is determined using a fuzzy discrimination method which follows a...

  • Pitting Corrosion and Fatigue Behavior of Aluminum Alloy 7075-T6. Sankaran, Krishnan K.; Perez, R.; Jata, Kumar V. // Advanced Materials & Processes;Aug2000, Vol. 158 Issue 2, p53 

    Presents information on a study which examined the effects of corrosion on the fatigue behavior of a structural aluminum alloy called 7075-T6. Structure and corrosive life of the alloy; Fatigue life modeling; Effects of equivalent stress concentration factors on the structural design of...

  • ASTM Subcommittee Conducts Program.  // Welding Design & Fabrication;Jul2003, Vol. 76 Issue 7, p8 

    Reports on the Seawater Exposure Program for High Magnesium Aluminum alloys used in marine vessels and structures conducted by ASTM Subcommittee G01.09 on Corrosion in Natural Waters in Pennsylvania. Features of the events; Participants.

  • Chemical Oxidation of an АМг-3 Type Alloy in Alkaline Molybdate-Containing Solutions. Kuznetsov, Yu. I.; Oleinik, S. V.; Khaustov, A. V. // Protection of Metals;Jul/Aug2003, Vol. 39 Issue 4, p311 

    A possibility to obtain conversion coatings (CCs) on an АМг-3 type aluminum alloy from alkaline molybdate-containing solutions (pH 12.8) is studied instead of its chromating. The effect of converting solution components on the resistance of thus obtained CCs to local anodic activation...

  • Microbiological corrosion of aluminum alloys. Smirnov, V. F.; Belov, D. V.; Sokolova, T. N.; Kuzina, O. V.; Kartashov, V. R. // Applied Biochemistry & Microbiology;Mar2008, Vol. 44 Issue 2, p192 

    Biological corrosion of AD0 quality aluminum and aluminum-based construction materials (alloys V65, D16, and D16T) was studied. Thirteen microscopic fungus species and six bacterial species proved to be able to attack aluminum and its alloys. It was found that biocorrosion of metals by...

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics