Singh, corrosion

Ziomek-Moroz M, Cramer SD, Holcomb GR, Covino, Jr BS, Bullard SJ, and Singh P. In Corrosion 2005, paper No. 10, NACE International, Houston, TX. 

Singh, A.K. Ericsson,T. Haggstrom, L. (1985) Mossbauer and X-ray diffraction phase analysis of rusts from atmospheric test sites with different environments in Sweden. Corrosion Sd. 25 931-945... 

All these classes of compounds have provided corrosion inhibitors. Out of this very extensive work (Hackerman, 1989 Singh and Lin, 1997), it is possible to come... 

The forward look in the electrochemistry of corrosion inhibitors is the theoretical design of inhibitors. The cutting edge in this field is in such design work (Hackerman, 1995 Singh and Lin, 1997). Consider the theoretical interpretation of the action of an inhibitor, dibenzyl sulfoxide ... 

Fig. 12.47. Corrosion inhibition by n-alkyl-triethyl- and -trimethylammonium bromides in 1 W-H2S04 at 20 °C. (Reprinted from W. P. Singh, Relationships between the Structure of organic Compounds and Corrosion Inhibition, in Green Inhibitor Consortium, Texas A M University, 1997.)...

The basis of this work (Singh, 1996) has been to relate structures with diminished toxicity to their lack of affinity for the organic material (lipid structures) that is characteristic of the outer bodies of sea fauna. The actual toxicity of a compound depends how it interacts with critical enzymes within the living organism. To be able to affect such enzymes, the organic corrosion inhibitor must penetrate the lipid layer that constitutes the exterior of the organism. If structures... 

Rath, PC., Besra, L., Singh, B.P, and Bhattacharjee, S. (2012) Tita-nia/hydroxyapatite bi-layer coating on Ti metal by electrophoretic deposition characterization and corrosion studies. Ceram. Int., 38, 3209—3216. 

J, Schmidt J. Schulte-Fischedick E. Cordano, C. Mao, V. Liedtke, R. Fordham CMC tubes based on C/C-SiC with high oxidation and corrosion resistance, Proceedings of the 5th international conference on high temperature ceramic matrix composites, ed. by M. Singh, R. Kerans, E. Lara-Curzio, R, Naslain, published by the American Ceramic Society, p. 531-536, 2004... 

Singh R, Dahotre NB (2007) Corrosion degradation and prevention by surface modification of biometallic materials. J Mater Sci Mater Med 18(5) 725-751... 

H. Singh, D. Puri, S. Prakash, An overview of Na2S04/V20s induced hot corrosion of Fe- and Ni-based super-alloys. Surf. Coat. Techol. 192 (2007) 27—38. 

R.K. Singh Raman, W.H. Slew, Role of nitrite addition in chloride stress corrosion cracking of a super duplex stainless steel, Corros. Sci. 52 (2010) 113—117. 

R.D. Moser, P.M. Singh, L.F. Kahn, K.E. Kurtis, Chloride-induced corrosion resistance of high-strength stainless steels in simulated alkaline and carbonated concrete pore solutions, Corros. Sci. 57 (2012) (2012) 241-253. 

M.M. Singh, R.B. Rastogi, B.N. Upadhyay, Inhibition of copper corrosion in aqueous sodium chloride solution by various forms of the piperidine moiety. Corrosion 50 (1994) 620-625. 

Singh DP and Prakash S, An Overview of NajS04 and/or VjOj Induced Hot Corrosion of Fe- and Ni-Based SuperaUoys. Rev Adv Mater Sci, 2007, 16 27-50. 

R. Javaherdashti, R.K. Raman Singh. Microbiologically influenced corrosion of stainless steels in marine environments A materials engineering approach. In the Proceedings of Engineering Materials 2001, The Institute of Materials Engineering, Australia, 2001. 

S. Lata, C. Sharma, A.K. Singh. Microbial influenced corrosion by thermophilic bacteria. Central European Journal of Engineering, Vol. 2, No. 1, pp. 133—122, 2012. 

R.K. Raman Singh, R. Javaherdashti, C. Panter, B.W. Cherry, E.V.P. Pereloma. Microbiological environment assisted stress corrosion cracking of mild steel. In the Proceedings of Corrosion Control and NDT, Melbourne, Australia, 2003. 

M.A. Quraishi, A. Singh, V.K. Singh, D.K. Yadav, A.K. Singh (2010). Green approach to corrosion inhibition of mild steel in hydrochloric acid and sulphuric acid solutions by the extract of Murraya koenigii leaves. Materials Chemistry and Physics 122(1), pp. 114-122. 

This paper focuses on how to model the deterioration of static pressurized process equipment to enable efficient inspection and maintenance planning. Such equipment tends to gradually deteriorate over time from erosion, corrosion, fatigue and other mechanisms, and at some point of time inspection, repair or replacement is expedient with respect to safety, production and costs. The deterioration of the equipment is influenced by many factors such as type of equipment, system design, operation and process service, material and environment. For hydrocarbon systems, the most critical deterioration mechanisms are corrosion due to CO2 and H2S, microbially influenced corrosion, sand erosion and external corrosion (DNV 2002). In general, CO2 is the most common factor causing corrosion in oil and gas system of low alloy steel (Singh et al. 2007). 

Sarao TPS, Sidhu HS, Singh H. Characterization and in vitro corrosion investigations of thermal sprayed hydroxyapatite and hydroxyapatite-titania coatings on Ti AUoy. Metall Mater Trans A 2012 43(11) 4365-76. 

Corrosion in white liquor has been studied extensively, but there is little information available on black liquor, aside from some work by Mueller [772], Wensley [124], and Singh [139,140], Mass loss tests in synthetic liquors containing inorganic and organic constituents of black liquors have been done at the University of Virginia [199],... 

Back, G. tmd Singh, P. M., Proceeding of the 10th International Symposium on Corrosion in the Pulp and Paper Industry, Technical Research Center of Finland, Helsinki, 2001, pp. 301-322. 

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