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NACE , corrosion

R. S. Treseder, NACE Corrosion Engineer s Reference Book, 2nd rev. ed.. National Association of Corrosion Engineers, Houston, Tex., 1991. [Pg.67]

T. L. Yau, Paper No. 102presented at NACE Corrosion] 81 April 1981, Toronto, Canada. [Pg.441]

Venkatesh, E. S., Corrosion in arctic drilling environments, NACE Corrosion 1986, Houston, 1986. [Pg.1383]

Cotton, I. J. Chemistry of Oxygen Corrosion Control. Betz/NACE Corrosion 87. National Association of Corrosion Engineers, USA, March 1987. [Pg.764]

Shimura, Y. Uchida, K. Sato, T. Taya, S. The Performance of New Volatile Oxygen Scavenger and Its Field Application in Boiler Systems. Kurita/NACE Corrosion 2000. NACE International, USA, April 2000. [Pg.769]

E. Buck, M. C. Allen, B. Sudbury, and B. Skjellerudsveen. Corrosion inhibitor detection by thin layer chromatography Development of the technique. In Proceedings Volume. Annu NACE Corrosion Conf (Corrosion 93) (New Orleans, LA, 3/7-3/12), 1993. [Pg.365]

G. Hernandez, C. Lemaitre, G. B. G. Mecanique, J. Guezennec, and J. P. Audouard. Biocorrosion of 316 1 stainless steel modified by poison alloying elements in sea water. In Proceedings Volume. Annu NACE Corrosion Conf (Corrosion 92) (Nashville, TN, 4/27-5/1), 1992. [Pg.403]

M. Knickrehm, E. Caballero, P. Romualdo, and J. Sandidge. Use of chlorine dioxide in a secondary recovery process to inhibit bacterial fouling and corrosion. In Proceedings Volume. NACE Corrosion 87 (San Francisco, CA, 3/9-3/13), 1987. [Pg.414]

J. A. Newton. Applications of spectroscopic quality control techniques for oilfield chemicals. NACE Corrosion 88 (St Louis, MO, 3/21-3/25), 1988. [Pg.440]

H. A. Videla, P. S. Guiamet, O. R. Pardini, E. Echarte, D. Trujillo, and M. M. S. Freitas. Monitoring biofilms and MIC (microbially induced corrosion) in an oilfield water injection system. In Proceedings Volume. Annu NACE Corrosion Conf (Corrosion 91) (Cincinnati, OH, 3/11-3/15), 1991. [Pg.473]

Note When dissimilar materials with significantly different electrical potentials are placed in contact in the presence of an electrolytic solution, galvanic couples that can result in serious corrosion of the less noble material may be created. If such conditions exist, the purchaser and the vendor should select materials in accordance with NACE Corrosion Engineer s Reference Book. [Pg.39]

Although no ASTM ferrous metal corrosion specification exists now for gasoline, diesel fuel, and other fuels, many refiners and marketers have adopted the National Association of Corrosion Engineers (NACE) Corrosion Standard Method TM-01-72-93 as a specification. This method has also been utilized by most product pipeline companies and is an established requirement. The NACE corrosion method is summarized as follows ... [Pg.182]

The NACE corrosion scale is a visual rating of surface rusting from 0% to 100%. Most refiners, product pipeline companies, and marketers of fuel require an NACE surface rust rating of 5% or less. The NACE corrosion rating scale is outlined in TABLE 7-1. [Pg.182]

TABLE 7-1. NACE Corrosion Test Spindle Rating Scale... [Pg.182]

Masler III, William F. Amjad, Zahid. Advances in the Control of Calcium Phosphonate with a Novel Polymeric Inhibitor. NACE/ Corrosion Paper No. 11, USA, March 1988. [Pg.454]

N.E. Hamner (ed.), NACE Corrosion Data Survey, Houston, TX, NACE, 1974. [Pg.107]

H.E. Townsend, NACE Corrosion 91 Conference, Cincinnati, OH, 11-15 March, 1991, Paper No. 416. [Pg.308]

E. M. Moore, J. J. Warga. Factors Influencing the Hydrogen Cracking Sensitivity of Pipeline Steels. NACE Corrosion/76 Paper 144, Houston, Texas, U.S.A., 1976-03-22/26, and Materials Performance 15(6), 17 (1976). [Pg.524]

W. Bruckhoff, O. Geier, K. Hofbauer, G. Schmitt, D. Steinmetz. Rupture of a Sour Gas Line Due to Stress Oriented Hydrogen Induced Cracking - Failure Analyses, Experimental Results and Corrosion Prevention. NACE Corrosion/85, Paper 389, Boston, USA, 1985-03-25/29. [Pg.525]

M. G. Hay, D. W. Rider. Integrity Management of a HIC-Damaged Pipeline and Refinery Pressure Vessel Through Hydrogen Permeation Measurements. NACE Corrosion/98 Paper 395, San Diego, California, U.S.A., 1998-03-22/27. [Pg.525]

Boukis, N. Kritzer, P. Schacht M. and Dinjus, E. (1999). The initiation of material corrosion in semicritical and supercritical aqueous hydrochloric acid solutions. NACE, Corrosion 99, USA, Paper No. 99256. [Pg.120]

Boukis, N. Friedrich, C. Dinjus, E. (1998). Titanium as reactor material for SCWO applications. First experimental results. NACE, Corrosion 98, Paper Nr. [Pg.120]

McDowell, D.W., Jr. and Sheppard, W.L., Jr., Use of Non-Metallics in Mineral Acid Plant Construction, Paper 57, NACE CORROSION/75, Toronto, Ontario, Canada (April 14-18,1975). [Pg.51]

Carpenter, G. and Pierce, R.R., Linings for Sulfuric and Phosphoric Acid Plant Process Vessels, Paper 95, NACE CORROSION/83, Anaheim, CA (4/18-22/83). [Pg.51]

Boova, A.A., Chemical Resistant Joints for Vitrifield Clay Pipe Conveying Chemical Wastes, Paper 229, NACE CORROSION/80, Chicago, IL (March 3-7,1980). [Pg.51]

Boova, A.A., Masonry and Lining Technology and Techniques, Paper 253, NACE CORROSION/82, Houston, TX (March 22-26,1982). [Pg.51]

Treseder, R.S., NACE Corrosion Engineers Reference Book, pp 217-220, Houston,... [Pg.223]

See other pages where NACE , corrosion is mentioned: [Pg.440]    [Pg.360]    [Pg.290]    [Pg.290]    [Pg.182]    [Pg.12]    [Pg.459]    [Pg.50]    [Pg.299]    [Pg.299]    [Pg.299]   
See also in sourсe #XX -- [ Pg.182 ]



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