Service conditions and their influence on oxide scale formation on metallic high temperature alloys for application in innovative combustion processes

Teneva-Kosseva, G.; Ackermann, H.; Köhne, Heinrich; Spähn, M.; Richter, Silvia

doi:10.1002/maco.200503898

Cited by 6 publications

(3 citation statements)

References 5 publications

(2 reference statements)

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“…7,8 Figure 9 shows the microstructure of alloy 602 in comparison to the microstructure of alloy 603 after 1000 h exposure at 950uC. Generally in the aluminium containing alloys larger inclusions were found within the chromia scale than in alloy 603.…”

Section: Comparison With Ni-cr-al Alloys and Discussionmentioning

confidence: 99%

“…Due to the radially unsymmetrical flame, differences between temperatures arose at different tangential positions. 6 The samples for metallographic investigations were cut from the segments at positions with steady state temperature 995uC¡15 K (in the following text specified as 1000uC) and 945uC¡35 K (specified as 950uC). One sample corresponded to 900uC¡40 K (specified as 900uC), for details see Refs.…”

Section: Materials and Exposure Testsmentioning

confidence: 99%

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Oxidation behaviour of Ni–Cr based alloy containing Si during high temperature application in an oil burner

Ackermann

Teneva-Kosseva

Lucka

et al. 2010

Corrosion Engineering, Science and Technology

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In certain modern oil burners, the combustion reaction is started in a flame tube. In the combustion atmosphere, the tube material is exposed to high temperatures and temperature changes. Nickel-chromium alloys are used to meet the requirement of high oxidation resistance. The paper presents the results on the oxidation behaviour of the silicon containing alloy 603 exposed to a low NO x burner at temperatures of 950 and 1000uC up to 2000 h. Beneath a chromia scale silica precipitates formed at the beginning of exposure, which grew laterally establishing a nearly continuous interlayer. The interlayer disintegrated during the continued exposure. A thinner chromia scale was observed for alloy 603 compared with the scales observed for aluminium containing nickel-chromium alloys. This was attributed to a pronounced scale spallation. After 1000 h at 1000uC catastrophic oxidation of alloy 603 occurred involving Mo oxide and internal chromium oxide.

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Section: Comparison With Ni-cr-al Alloys and Discussionmentioning

confidence: 99%

Section: Materials and Exposure Testsmentioning

confidence: 99%

Oxidation behaviour of Ni–Cr based alloy containing Si during high temperature application in an oil burner

Ackermann

Teneva-Kosseva

Lucka

et al. 2010

Corrosion Engineering, Science and Technology

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“…At stationary operation following typical gaseous concentrations in dry gas were measured at tube outlet: 13.3-13.87 vol% carbon dioxide, 0.8-2.7 vol% oxygen, 0.1-0.95 vol% carbon monoxide, 2-39 ppm hydro carbons as propane equivalents. For details concerning burner construction, temperature distribution and gaseous atmosphere near the inner flame tube wall measured in tangential and axial direction see [6,7]. For the metallographic analysis samples with dimensions 15 Â 15 Â 1 mm 3 and 15 Â 10 Â 1 mm 3 were cut from regions at the flame tube outlet (at 1000 8C) and the half flame tube length (at 950 8C).…”

Section: Methodsmentioning

confidence: 99%

Oxide scale formation on Al containing Ni–Cr‐based high temperature alloys during application as flame tube material in recirculation oil burners

Ackermann

Teneva-Kosseva

Köhne

et al. 2008

Materials & Corrosion

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The flame tube is an important functional component of burners using the concept of the flame tube stabilised combustion. Under typical combustion conditions the material of the flame tube is exposed to high temperatures (≥900 °C) and to corrosion attack by the combustion gases. Furthermore as the burners are generally operated intermittently, the material suffers from extreme temperature and atmosphere changes. For flame tubes, a lifetime of approximately 8000 h is desired. Predominantly metallic high temperature materials are used. The scope of the present work was to test—under application conditions and for maximum material temperatures exceeding 900 °C—alternative high temperature alloys for use as tube material. The corrosion resistance of the austenitic Ni–Cr‐based alloys (601, 602 CA, 617 and 693) has been investigated in a burner rig at maximum material temperatures of 950 and 1000 °C and with exposure times from 50 to 3000 h. The chromium content of the alloys was between 20 and 30 wt% and that of aluminium between 1 and 3.4 wt%. Metallographic cross‐sections of samples of the alloys were analysed by electron microprobe yielding information about the microstructure and composition of the oxides in the surface zone and variations during exposure time. This study focuses on the observed specific effects of the alloying element aluminium on the development of the oxide scale and on the lifetime of the alloys. At the alloy surface after 500 h exposure time a chromium oxide scale had formed with aluminium oxides underneath predominantly along grain boundaries. For the alloys with the lower aluminium content, the aluminium oxides built up an open network but not a closed layer. For the alloy with the highest aluminium content (alloy 693) after 50 h two different characteristic microstructures at the surface were found. In one case, the grains at the surface were covered with chromium oxide on top and the remaining grain surface was completely enclosed by aluminium oxides. In the other case, the aluminium oxide formed a thin layer directly below the chromium oxide scale. After 500 h exposure time, a significantly thinner chromium oxide scale and massive internal chromium oxides were observed. Catastrophic corrosion, formation of internal oxides and aluminium nitrides started even after 500 h. It will be demonstrated that the early breakdown of alloy 693 is linked to the aluminium oxides which act as a barrier constricting the diffusion of chromium from the alloy matrix towards the surface. Under the conditions of extreme temperature changes given in the burner the aluminium oxide layer on its part did not provide corrosion protection.

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Scale Formation of Alloy 602 CA During Isothermal Oxidation at 800–1100 °C in Different Types of Water Vapor Containing Atmospheres

et al. 2015

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Service conditions and their influence on oxide scale formation on metallic high temperature alloys for application in innovative combustion processes

Cited by 6 publications

References 5 publications

Oxidation behaviour of Ni–Cr based alloy containing Si during high temperature application in an oil burner

Oxidation behaviour of Ni–Cr based alloy containing Si during high temperature application in an oil burner

Oxide scale formation on Al containing Ni–Cr‐based high temperature alloys during application as flame tube material in recirculation oil burners

Scale Formation of Alloy 602 CA During Isothermal Oxidation at 800–1100 °C in Different Types of Water Vapor Containing Atmospheres

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