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Intercrystalline corrosion

Gerasimov, V. V. and Alexandrova, V. N., Intercrystalline Corrosion of Steels of the 1 Kh 18N9T Type in Distilled Water , Metalloved i Term. Obrabotka Metal, 2, 53 (1962) C.A., 56, 13900f... [Pg.198]

Younger, R. N., Baker, R. G. and Littlewood, R., The Relationship Between Microstructure and Intercrystalline Corrosion in an 18Cr-12Ni-lNb Austenitic Steel , Corros. Sci., 2, 157 (1962)... [Pg.198]

Cihal, V., Explanation of Intercrystalline Corrosion of Welded, Stabilised Cr-Ni Stainless Steels , Bergakademie, 15, 23 (1963) C.A., 58, 13523d Fleitman, A. H., Romano, A. J. and Kiermut, C. J., Corrosion of Carbon Steel by High Temperature Liquid Mercury , J. Electrochem. Soc., 110, 964 (1963)... [Pg.199]

Levin, I. A. and Volikova, 1. G., The Accelerated Method for Testing the Stability of a Singlephase Corrosion Resistant Steel to Intercrystalline Corrosion , ZavodskLab., 30, 816 (1964) Hua, P.-T., Shen, H.-S., Chou, C. C. and Chung, T. T., Relation Between Intercrystalline Corrosion and Electrode Potential of Austenitic Stainless Steel , K O Hsueh Tung Pao, 2, 56 (1964) C.A., 60, 15516h... [Pg.199]

Ceilings, P. J. and de Jongh, M. A., Grain Boundary Oxidation and the Chromium-depletion Theory of Intercrystalline Corrosion of Austenitic Stainless Steels , Corros. Sc/., 7,413 (1967) Armijo, J. S., Impurity Adsorption and Intergranular Corrosion of Austenitic Stainless Steel in Boiling HNOj-KjCrjO, Solutions , Corros. Sci., 7, 143 (1967)... [Pg.200]

Nikitin, V. L, Intercrystalline Corrosion by Liquid Metals by Dissolution Process , Izv. Akad. [Pg.200]

Hajto, N. and Vrabely, E., Comparison of Tests for Intercrystalline Corrosion Tendency , Banyasz. Kohasz. Lapok. Kohasz., 103, 385 (1970) C.y4., 77, 48934n Berge, P., Corrosion Intergranulaire d un Alliage du Type Inconel 600 dans la Vapeur d Eau , Corros. Sci., 10, 185 (1970)... [Pg.200]

Cihal, V. and Kasova, L, Relation Between Carbide Precipitation and Intercrystalline Corrosion of Stainless Steel , Corros. Sci., 10, 875 (1970)... [Pg.200]

Gizhermo, R. and Khristo, E., Effect of the Deoxidation Method on the Intercrystalline-corrosion Tendency of Cr-Ni Austenitic Steels , Melalurgiye, 5, 17 (1972) C.A., 80, 98898y Joshi, A. and Stein, D. F., Chemistry of Grain Boundaries and its Relation to Intergranular Corrosion of Austenitic Stainless Steel , Corrosion, 28, 321 (1972)... [Pg.201]

Gegelova, N, B., Mudzhiri, Y. N., Knyazheva, V. M. and Topchiashvili, L. I., Determination of Intercrystalline Corrosion Tendency of Stainless Steel by Potentiodynamic Method , Zashch. Metal., 8, 420 (1972) C.A., 77, 121422n van der Horst, J. M. A., Grain Boundary Attack of 316L Stainless Steel in Ammonia-rich Environments , J. Electrochem. Soc., 119, 216C (1972)... [Pg.201]

Steiner, A., Effect of Phosphorous Level on General and Intercrystalline Corrosion in 18/8 Type Steel , Pr. Inst. Hutn., 24, 255 (1972) C.A., 80, 6185n Anisimova, M. S. and Chikurova, A. A., Effects of Heat-treatment Conditions and Structure of Khl8N9TL Cast Steel on its Susceptibility to Intercrystalline Corrosion , Optimiz Met. Protsessov, 6, 163 (1972)... [Pg.201]

Levente, B., Effect of Stabilising Elements on the Susceptibility to Intercrystalline Corrosion of Heat and Corrosion Resistant Austenitic Steels , Gepgyartastechnologia, 13, 528 (1973) C.A., 80, 102971m... [Pg.201]

Sandor, P., Resistance to Intercrystalline Corrosion in Stainless Steel Weld Metal , Anticorros. [Pg.201]

Intercrystalline corrosion was a serious problem with the austenitic stainless steels early in their development since carbon contents then were relatively high, e.g. En58J contained up to 0.12type stainless steel contained up to 0.08 Vo C. The problem in relation to surgical implants has been reported by Scales eta/. and as a result of this and several other reports the British, American and International Standards specified the use of a 316S12 type austenitic stainless steel which contains 0.03 Vo C max. The use of the lower carbon content stainless steels as specified in the various standards has now eliminated the problem of sensitisation of implants. If manufacturers do use the 0.08% C versions they have to be very careful with the forging temperatures or anneal the prostheses afterwards. [Pg.479]

The Krupp work had shown interesting improvements in acid resistance resulting from molybdenum and copper additions, and the use of 2-3% Mo for more difficult acid conditions was soon established. Other early additions were made to overcome susceptibility to intercrystalline corrosion, culminating in the general use, by the early thirties, of titanium additions for carbide stabilisation, followed shortly after by the alternative use of niobium. [Pg.519]

Fig. 3.21 Temperature-time-sensitisation diagrams for three austenitic Cr-Ni steels solution treated at 1 0S0°C. The curves enclose the treatments causing susceptibility to intercrystalline corrosion in a boiling CUSO4 -F H2SO4 test reagent... Fig. 3.21 Temperature-time-sensitisation diagrams for three austenitic Cr-Ni steels solution treated at 1 0S0°C. The curves enclose the treatments causing susceptibility to intercrystalline corrosion in a boiling CUSO4 -F H2SO4 test reagent...
The ferritic steels may also undergo intercrystalline corrosion as a result of grain boundary carbide formation. In the normal softened state (treated i 800 C) the carbon is largely precipitated and the ferrite composition homogenised so that further heating at lower temperatures has no adverse effect. During solution treatment above 950 C, however, carbon is redissolved. Sensitisation can then occur at lower temperatures but the rate is so rapid that it can only be suppressed by very rapid cooling which is not practically feasible. Thus weld decay is very possible in service unless a remedial... [Pg.540]

Additions of antimony or phosphorus, in amounts similar to arsenic, are claimed to be also capable of preventing dezincification of a brasses. Most manufacturers use arsenic, however, and it certainly appears desirable to avoid phosphorus, since Bern has shown that this element can, in some circumstances, lead to an undesirable susceptibility to intercrystalline corrosion. The same appears to be true of excessive amounts of arsenic (over about 0-05%). [Pg.696]

Timonova, M. N., Intercrystalline Corrosion and Corrosion of Metals Under Stress, Consultants Bureau, New York, 263 (1962)... [Pg.1284]

Titanium stabilised fillers should not be used in argon-arc welding as titanium will be vaporised and its effectiveness as a stabiliser lost. Carburising the weld seam by pick-up from surface contamination, electrode coatings or the arc atmosphere leads to increased tendency to intercrystalline corrosion. [Pg.95]

M.A. Timonova, Corrosion Cracking of Mg Alloys and Methods of Protection in Intercrystalline Corrosion and Corrosion Metals under Stress, I.A. Levin (ed.), Translated from Russian, Consultant Bureau in New York, 1962, pp. 263-282. [Pg.308]

The most widespread corrosion types are point corrosion or pitting, filiform, crevice, contact and intercrystalline corrosion. The highest danger for the metal-polymer system is presented by the crevice type of corrosion. [Pg.14]

Resistance to intercrystalline corrosion determined according to Table la.5. [Pg.159]

See other pages where Intercrystalline corrosion is mentioned: [Pg.791]    [Pg.410]    [Pg.414]    [Pg.198]    [Pg.199]    [Pg.200]    [Pg.201]    [Pg.201]    [Pg.440]    [Pg.536]    [Pg.540]    [Pg.540]    [Pg.542]    [Pg.663]    [Pg.1019]    [Pg.380]    [Pg.20]    [Pg.414]    [Pg.344]   
See also in sourсe #XX -- [ Pg.3 , Pg.7 , Pg.56 , Pg.103 , Pg.108 , Pg.130 , Pg.131 , Pg.132 , Pg.160 ]

See also in sourсe #XX -- [ Pg.3 ]

See also in sourсe #XX -- [ Pg.3 , Pg.7 , Pg.56 , Pg.103 , Pg.108 , Pg.130 , Pg.131 , Pg.132 , Pg.160 ]

See also in sourсe #XX -- [ Pg.206 , Pg.217 ]



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Origins of Intercrystalline Corrosion

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