Investigation on steam oxidation behaviour of TP347H FG Part 1: Exposure at 256 bar

Jiang, Jianmin; Montgomery, Melanie; Larsen, OH; Jensen, Søren Aakjær

doi:10.1002/maco.200403856

Cited by 23 publications

(26 citation statements)

References 11 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The designed fine-grained microstructure of TP347HFG steel (grain size ≥ 8) ensures high resistance to oxidation and higher plasticity (expressed as the elongation growth in creep tests) with the creep resistance similar to that of coarse-grained steels [2]. Fine-grained microstructure of TP347HFG steel also has an influence on a slower decrease in impact strength during its long-term service [8,9]. Performed identifications of precipitates revealed two types of carbides in the microstructure: NbC carbides and M 23 C 6 carbides (Fig.…”

Section: Results Of Research and Discussionmentioning

confidence: 99%

“…The lack of access to data concerning the microstructure in the as-received condition limits the possibility of analyzing the changes that run in the examined steel during the service. However, considering the applied heat treatment for this grade of steel -hyperquenching in water from the temperature of 1180 ÷ 1250°C [19], and literature data [1,2,8,10,18], it can be assumed that in the as-received condition, the investigated steel was characterized by the microstructure consisting of austenitic matrix and primary NbC precipitations. It shows that the degradation of the microstructure of the examined steels during the service mostly occurred through the precipitation of secondary carbides, i.e.…”

Section: Results Of Research and Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Microstructural Aspect of Long Term Service of the Austenitic TP347HFG Steel / Wpływ Długotrwałej Eksploatacji Na Mikrostrukturę Stali TP347HFG

Golański¹,

Lis²,

Słania³

et al. 2015

Archives of Metallurgy and Materials

View full text Add to dashboard Cite

The paper presents the results of research on the microstructure of austenitic creep-resisting TP347HFG steel after longterm service. The tests of the microstructure were performed using SEM and TEM. The identification of precipitates was carried out using selective electron diffraction. It has been shown that long-term service mostly contributes to the processes of precipitation of secondary NbC carbides inside grains and M23C6 carbides on grain boundaries. In the microstructure of the examined steel, also the processes of polygonization and recrystallization of the matrix were revealed.

show abstract

Section: Results Of Research and Discussionmentioning

confidence: 99%

Section: Results Of Research and Discussionmentioning

confidence: 99%

Microstructural Aspect of Long Term Service of the Austenitic TP347HFG Steel / Wpływ Długotrwałej Eksploatacji Na Mikrostrukturę Stali TP347HFG

Golański¹,

Lis²,

Słania³

et al. 2015

Archives of Metallurgy and Materials

View full text Add to dashboard Cite

show abstract

“…Based on the morphology and the thickness of the oxide, it is seen that the oxidation, although similar to that suggested at high temperatures [4], has also some interesting differences. Therefore the following model is proposed for oxidation at low pressures and in the low temperatures ranges from 455 -525 8C (Fig.…”

Section: Morphology Of Oxidementioning

confidence: 99%

“…Thus for a USC biomass plant, TP347H FG is a steel that combines the optimal corrosion resistance with the advantageous steamside oxidation features. The steamside oxidation of this steel in long-term field tests at 500 -620 8C and 256 bar has been investigated in the previous paper [4]. This paper will assess the steamside oxidation at a different plant with lower temperature range of 450 -560 8C and lower pressure of 91 bar.…”

Section: Introductionmentioning

confidence: 99%

“…Henriksen et al [7] indicated that operation parameters, such as steam/ metal temperature, heat flux, operation duration and steam pressure have a very important influence on the steam oxidation rate of superheater tubes, therefore in situ steam oxidation tests have been conducted [8]. The previous paper [4] revealed that increasing temperature results in a better chromium rich healing layer which decreases the oxidation rate. It has also been shown that the final surface treatment of an alloy such as machining can greatly influence the steam oxidation characteristics [9].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Investigation of steam oxidation behaviour of TP347H FG. Part 2: Exposure at 91 bar

Jiang¹,

Montgomery²,

Larsen³

et al. 2005

Materials & Corrosion

Self Cite

View full text Add to dashboard Cite

Tube specimens of TP347FG were exposed in a test superheater loop in a biomass plant in Denmark. The specimens were exposed to surface metal temperatures in the range of 455 -568 8C, steam pressure of 91 bar and exposure duration of 3500 and 8700 hours. The oxide thickness and morphology was investigated using light optical and scanning electron microscopy. The oxide present on the specimens is a duplex oxide with an inner chromium rich oxide and an outer iron rich oxide. The inner oxide consisted of a primary iron chromium nickel oxide in the original alloy grain and a chromium rich oxide, "healing layer", at the grain boundaries. This gave the appearance of uneven inner oxide and it was clear that the varying subsurface grain size affected inner oxide thickness, especially after longer exposure times. Longer exposure times from 3500 to 8700 hours resulted in increased pit thickness. Comparison of pit thickness revealed that increase of temperature from 455 to 525 8C increases the oxidation rate, however a further increase in temperature did not result in thicker inner oxide presumably due to the formation of a better healing layer at grain boundaries. These results are compared with the previous paper where the pressure and temperature was higher. A thicker inner oxide is observed at the lower temperatures and pressures compared with higher temperatures and pressures. Reasons for this behaviour are discussed.

show abstract

Microstructural investigation of the oxide formed on TP 347H FG during long‐term steam oxidation

Hansson

Danielsen

Grumsen

et al. 2010

Materials & Corrosion

Self Cite

View full text Add to dashboard Cite

The long-term oxidation behaviour of TP347H FG in ultra supercritical steam conditions was assessed by exposing the steel in test superheater loops in a Danish coal-fired power plant and characterising the oxide layer with reflective light and electron microscopy. Double layered oxide scales formed during steam oxidation. TEM investigations reveal that the inner oxide layer consists of particles of metallic Ni/Fe and Fe-Cr spinel in the interior of the former alloy grains and a compact layer of Fe-Cr spinel and Cr 2 O 3 along the former alloy grain boundaries. The morphology suggests that the inner layer grows by internal oxidation of the interior of the alloy grains. The thickness of the inner oxide layer did not change significantly with oxidation time and temperature for exposure times up to 30 000 h. Faster Cr diffusion within the fine-grained alloy at higher temperatures is held responsible for this observation. This hypothesis is supported by kinetic data. The oxide thickness at low and high temperatures after 58 000 h exposure was higher than expected.

show abstract

Investigation on steam oxidation behaviour of TP347H FG Part 1: Exposure at 256 bar

Cited by 23 publications

References 11 publications

Microstructural Aspect of Long Term Service of the Austenitic TP347HFG Steel / Wpływ Długotrwałej Eksploatacji Na Mikrostrukturę Stali TP347HFG

Microstructural Aspect of Long Term Service of the Austenitic TP347HFG Steel / Wpływ Długotrwałej Eksploatacji Na Mikrostrukturę Stali TP347HFG

Investigation of steam oxidation behaviour of TP347H FG. Part 2: Exposure at 91 bar

Microstructural investigation of the oxide formed on TP 347H FG during long‐term steam oxidation

Contact Info

Product

Resources

About