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Performance of high molybdenum superaustenitic stainless steel welds in harsh chloride environments

Book ·
OSTI ID:382592
; ;  [1]
  1. Avesta Sheffield AB (Sweden)
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Superaustenitic steels are normally welded with nickel-based alloys as filler materials. To clarify the understanding of weld behavior in superaustenitic stainless steels this paper presents the development history of 6Mo and 7Mo steels, and results of laboratory tests and field tests on welds of UNS S31254 (6Mo) and UNS S32654 (7 Mo) in different types of chloride containing environments. The laboratory tests consisted of the well known ferric chloride test (ASTM G 48 Method A). Shielded metal arc welds, gas tungsten arc welds and submerged arc welds in both grades were tested. The critical pitting temperatures were determined and the locations of the attack were noted. Some specimens were sectioned at the position of the attack followed by studies using light optical microscopy. The critical pitting temperatures of the welds in S31254 and S32654 were at normal levels for both grades, i.e., 40--50 C for S31254 and 60--75 C for S32654. The locations of the attack differed depending on the welding process. In shielded metal arc welds the attack was mostly located in the weld metal. In gas tungsten arc welds the attack was predominantly located next to the fusion line. The field tests showed that the behavior of welds and parent metal of superaustenitic stainless steels, as well as of nickel-based alloys, is much dependent on the corrosive environment. In oxidizing chloride solutions, similar results to those of the ferric chloride test, are observed. However, crevice corrosion in the parent material is at a greater risk than pitting corrosion in the welds. In very oxidizing solutions of low chloride concentrations, welds made of nickel-based fillers may corrode faster than the stainless steel base metal due to transpassive uniform corrosion. The opposite situation exists when active uniform corrosion prevails, i.e., welds made of nickel-based fillers corrode less than the stainless steel parent material.
OSTI ID:
382592
Report Number(s):
CONF-960389--
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
CHEMICAL COMPOSITION
CHLORIDES
CHROMIUM ALLOYS
COPPER ALLOYS
CORROSION RESISTANCE
CREVICE CORROSION
EXPERIMENTAL DATA
FIELD TESTS
HEAT AFFECTED ZONE
IRON ALLOYS
MANGANESE ADDITIONS
METALLOGRAPHY
MOLYBDENUM ALLOYS
NICKEL ALLOYS
NIOBIUM ADDITIONS
PITTING CORROSION
TUNGSTEN ADDITIONS
WEIGHT MEASUREMENT
WELDED JOINTS