Effect of Chromium Content on the Oxidation Behaviour of Ferritic Steels for Applications in Steam Atmospheres at High Temperatures

Sánchez, Laura; Hierro, María Pilar Queralt del; Pérez, F.J.

doi:10.1007/s11085-008-9134-x

Cited by 39 publications

(26 citation statements)

References 21 publications

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“…Shibli and Starr [32] indicated that 10-11 % of chromium in material allows the protective, external chromia (Cr 2 O 3 ) to be formed; on the other hand Sanchez et al [31] have shown that such level suppose to be around 11-12 %.…”

Section: Discussionmentioning

confidence: 99%

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Analysis of High Temperature Steam Oxidation of Superheater Steels Used in Coal Fired Boilers

Dudziak¹,

Łukaszewicz

Simms

et al. 2015

Oxid Met

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The present work compares the behaviour of four steels: (T23, T92, T347HFG, Super304H) in the temperature range 600-750°C. This study focuses on the analysis of the oxidation kinetics in terms of mass change, metal loss and thickness change of the selected materials. In order to understand the differences in oxidation rates between the selected steels, the impact of chromium and the alloying elements were considered in this work. The obtained results show that the impact of alloying elements differs with exposure conditions and importance of the synergy effect.

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Section: Discussionmentioning

confidence: 99%

“…The reduced impact of Cr is a result of slower diffusion of metal ions at 600°C as the diffusion coefficients are temperature dependent [29,30]. It could be also explained as a result that neither of those two steels has sufficient amount of chromium which can effectively suppress the non-protective oxide growth at higher temperatures [31].…”

Section: Discussionmentioning

confidence: 99%

Analysis of High Temperature Steam Oxidation of Superheater Steels Used in Coal Fired Boilers

Dudziak¹,

Łukaszewicz

Simms

et al. 2015

Oxid Met

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“…A number of modified 9-12 % Cr ferritic/martensitic steels with higher creep strength have been developed and are currently being used for critical components in coal-fired power plants such as heat exchangers, headers, steam lines and exhaust gas systems [5][6][7]. Although these steels have excellent oxidation resistance during exposure in oxygen or air [7], their oxidation rates are significantly enhanced in environments containing water vapour as those prevailing in power plant service conditions [6][7][8][9][10][11][12][13]. Therefore, superheater tubes of modified 9-12 % Cr steels are limited for use up to a maximum working temperature of 620°C in the air-fired power plants due to their limitations to oxidation and creep [11,12].…”

Section: Introductionmentioning

confidence: 99%

Comparative Study on High Temperature Oxidation of T92 Steel in Dry and Wet Oxyfuel Environments

et al. 2015

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Fireside oxidation of T92 steel was studied after exposure times up to 1000 h in the temperature range of 580-650°C in simulated dry (CO 2 -27 % N 2 -2 % O 2 -1 % SO 2 ) and wet (CO 2 -20 % H 2 O-7 % N 2 -2 % O 2 -1 % SO 2 ) oxyfuel environments. Water vapour addition to the oxyfuel gas substantially increased the oxidation rate. The oxide scales developed under wet environment contained more defects, resulting in higher access of oxidants to the substrate material and enhanced oxidation. In addition, the oxide scales had lower chromium enrichment in the inner layer as compared to that in the dry condition. The oxide scales consisted of hematite and magnetite in the outer layer and a mixture of (Fe, Cr)-spinel, sulphides and wustite in the inner layer. The sulphur distribution differed between the oxide scales developed in dry and wet oxyfuel environments. Sulphur was mainly concentrated in the inner layer and at the oxide/alloy interface. In contrast to the wet oxyfuel gas, very high sulphur concentration was measured in the inner oxide scale formed in the dry oxyfuel gas. Additionally, Fe-sulphide was formed at the interface of inner and outer oxide layer in the wet condition.

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“…7 Both oxidation kinetics and the scale morphology are reported to be strongly dependent on the steel composition, surface finish and test conditions: metal temperature, steam flow and chemistry. 8 Among highlighted factors, chromium levels are of crucial importance 9 ; however, levels seems to have less impact below 570°C. Therefore for components operating at temperatures below 570°C the steels with lower Cr levels may be employed.…”

Section: Introductionmentioning

confidence: 99%

“…Shibli and Starr 11 indicated that in temperature range of 600-650°C, 10-11% of chromium in the base metal allows protective, external chromia (Cr 2 O 3 ) to be formed; in contrast Sanchez et al 9 have shown that such an oxide forming with Cr content greater than 11-12% for steels exposed to steam at temperatures above 600°C. Quadakkers et al 12 concluded that the scale formed on ferritic and austenitic steels differs with the chromium content in the base material; it is recognised that scale changes in following manner: with increasing Cr content it changes from haematite/magnetite to magnetite/(Fe, Cr) 3 Viswanathan et al 6 proposed the following ranking of the high-temperature resistant steels, due to their chromium levels and their relation with protective properties of the scale: IN740, Haynes 230, HR120, HR6W, HR3C, TP347HFG, Super 304H, T92, T91 and finally T23.…”

Section: Introductionmentioning

confidence: 99%

Impact specimen geometry on T23 and TP347HFG steels behaviour during steam oxidation at harsh conditions

Dudziak¹,

Łukaszewicz

Simms

et al. 2016

Corrosion Engineering, Science and Technology

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Ferritic T23 steel and austenitic TP347HFG steel have been studied with an emphasis on understanding the impact of specimen geometry on their steam oxidation behaviour. The selected materials were tested over a wide range of temperatures from 600 to 750°C. The tests were carried out in 100% steam conditions for 1000 hours. The tests indicated that the 'curvedshaped' specimens show slower mass gain, scale ticking and void nucleation rates than 'bridge-shaped' specimens (with flat and convex surfaces combined). Furthermore, a bridge TP347HFG sample showed the formation of lower amount of flaky oxide at 750°C.

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Effect of Chromium Content on the Oxidation Behaviour of Ferritic Steels for Applications in Steam Atmospheres at High Temperatures

Cited by 39 publications

References 21 publications

Analysis of High Temperature Steam Oxidation of Superheater Steels Used in Coal Fired Boilers

Analysis of High Temperature Steam Oxidation of Superheater Steels Used in Coal Fired Boilers

Comparative Study on High Temperature Oxidation of T92 Steel in Dry and Wet Oxyfuel Environments

Impact specimen geometry on T23 and TP347HFG steels behaviour during steam oxidation at harsh conditions

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