Crevice Corrosion of Duplex Stainless Steel in Simulated Sour Gas Environments

Azuma, Shigeki; Tsuge, Hiroyasu; Kudo, Takeo; Moroishi, Taishi

doi:10.5006/1.3577849

Cited by 10 publications

(7 citation statements)

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“…They have higher strength, better corrosion resistance, and better stress corrosion cracking resistance than austenitic SS. [1][2][3][4][5][6] Because of these properties, duplex SS are used increasingly in petroleum refineries, petrochemical industries, and marine applications. Duplex SS have been available commercially for many years, but they were not used widely before development of the highalloy duplex SS because of problems in hot workability and their susceptibility to intergranular corrosion (IGC) after welding and heat treatment.…”

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confidence: 99%

Influence of Aging on Intergranular Corrosion of a 25% Chromium-5% Nickel Duplex Stainless Steel

Ravindranath

Malhotra

1994

CORROSION

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Although duplex stainless steels (SS) exhibit good performance in many severe corrosive environments, their corrosion resistance can be hampered by precipitation of chromium (Cr)-and molybdenum (Mo)-rich phases during heat treatments. The influence of aging treatments on intergranular corrosion (IGC) of a commercial 25% Cr-5% nickel (Ni) duplex SS (UNS S32550) was studied. The SS was given aging treatments in the range 773 K to 1,173 K for durations from 6 min to 100 h. Microstructure study of the aged samples indicated the presence of various phases, among them , Cr-rich carbide, secondary austenite, ␣´, and copper (Cu)-rich precipitate. The influence of these precipitated phases on IGC susceptibility of the SS was evaluated by the ferric sulfate (Fe 2 [SO 4 ] 3 )-sulfuric acid (H 2 SO 4 ) and Cu-copper sulfate-(CuSO 4 )-H 2 SO 4 tests. Results indicatedand Cr-rich carbide increased IGC susceptibility greatly, as did aging in the range 873 K to 1,073 K.

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confidence: 99%

Influence of Aging on Intergranular Corrosion of a 25% Chromium-5% Nickel Duplex Stainless Steel

Ravindranath

Malhotra

1994

CORROSION

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“…12 Figure 12 shows the effect of the partial pressure of H 2 S on the pH d of the 40%Ni-20%Cr-3%Mo alloy together with the result on 5%Ni-22°roCr-3%Mo duplex SS. 10 The pH d value of the high-Ni CRA decreased with increasing partial pressure of H 2 S, which is opposite of the tendency of the duplex SS. This difference in the pH d comes from the difference in Ni content between those alloys.…”

Section: Effect Of Ni Cr and Mo On The Occurrence Of Crevice Corrosionmentioning

confidence: 94%

“…The crevice corrosion in a H 2 S-CIenvironment is thought to be basically similar to that in an 02-C1 environment 10 :…”

Section: Effect Of Ni Cr and Mo On The Occurrence Of Crevice Corrosionmentioning

confidence: 99%

“…As mentioned in the previous work, consideration of the chemical equilibrium in the crevice is useful for discussing crevice corrosion in H 2 S-CIenvironment. 10 In narrow crevice, dissolved H 2 S is spent by the reaction with Ni t ion to form Ni-S compound because the diffusion of chemical species is restricted. As a result, the crevice solution shows a decrease in the H 2 S concentration when it is compared with the bulk solution.…”

Section: Estimation Of Crevice Corrosion Resistance By Phdmentioning

confidence: 99%

“…e ' 9 In our previous work, the crevice corrosion of duplex SSs was investigated in H2S-CL environments and the effects of environmental variables were clarified. 10 In this paper, the crevice corrosion behavior of CRAs with various contents of Ni, Cr, and Mo is investigated and the roles of those elements on the crevice corrosion are discussed.…”

Section: Introductionmentioning

confidence: 99%

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Crevice Corrosion of Corrosion-Resistant Alloys in Simulated Sour Gas Environments

Azuma¹,

Kudo²

1991

CORROSION

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BSTRACT Crevice corrosion behaviors of corrosion-resistant alloys (CRAs) with various Ni, Cr, and Mo contents were investigated in conditions simulating the sour gas environment encountered in oil and gas production. Crevice corrosion occurred more easily in a 0.1 MPa H2S environment than in a 1.0 MPa H 2 S environment. Ni, Cr, and Mo all improved crevice corrosion resistance in electrochemical and immersion tests. The improving effect of Ni and Cr on crevice corrosion resistance reached saturation at 20 percent of their contents. The effect of Mo was remarkable. Alloys containing more than 6% Mo exhibited excellent crevice corrosion resistance, which could not be achieved by the increment in Ni and Cr contents. The onset of the crevice corrosion on CRAs in H2 S-CIenvironment was investigated by electrochemically studying the pH drop in the crevice solution and the depassivation pH (pH d).These are considered to determine the extent of crevice corrosion resistance in comparison to that in 0 2-C1 environment. The effect of Ni on crevice corrosion differed in H 2 S-Cland 02-Cl environments. It was proven that Ni accelerates the pH drop and raises the pHd inside crevices by reducing the H 2 S concentration through Ni-S compound formation in H 2 S-CIenvironments.It has been shown that the crevice corrosion frequency from the immersion test in 0.1 MPa H 2 S was better correlated with the pHd in the deaerated solution rather than the pH d in the H2S containing solution. The crevice corrosion resistance under 0.1 and 1 MPa H2 S is discussed in relation to the pH d dependent on the H2 S concentration in the crevice.An immersion test was conducted in the 1 0-L autoclave (Figure 2). The test specimen (Figure 1[b]) had 20 metal/PTFE

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