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Title: Structural stability of super duplex stainless weld metals and its dependence on tungsten and copper

Journal Article · · Metallurgical Transactions, A
DOI:https://doi.org/10.1007/BF02651874· OSTI ID:367287
;  [1]; ;  [2];  [3]
  1. AB Sandvik Steel, Sandviken (Sweden). R and D Center
  2. Esab AB, Goeteborg (Sweden). Central Labs.
  3. Luleaa Univ. of Technology (Sweden). Dept. of Engineering Materials
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Three different superduplex stainless weld metals have been produced using manual metal arc welding under identical welding conditions. The concentration of the alloying elements tungsten and copper corresponded to the concentrations in commercial superduplex stainless steels (SDSS). Aging experiments in the temperature range 700 C to 1,110 C showed that the formation of intermetallic phase was enhanced in tungsten-rich weld metal and also dissolved at higher temperatures compared with tungsten-poor and tungsten-free weld metals. It could be inferred from time-temperature-transformation (TTT) and continuous-cooling-transformation (CCT) diagrams produced in the present investigation that the critical cooling rate to avoid 1 wt pct of intermetallic phase was 2 times faster for tungsten-rich weld metal. Microanalysis in combination with thermodynamic calculations showed that tungsten was accommodated in {chi} phase, thereby decreasing the free energy. Experimental evidence supports the view that the formation of intermetallic phase is enhanced in tungsten-rich weld metal, owing to easier nucleation of nonequilibrium {chi} phase compared with {sigma} phase. The formation of secondary austenite ({gamma}{sub 2}) during welding was modeled using the thermodynamic computer program Thermo-Calc. Satisfactory agreement between theory and practice was obtained. Thermo-Calc was capable of predicting observed lower concentrations of chromium and nitrogen in {gamma}{sub 2} compared with primary austenite. The volume fraction of {gamma}{sub 2} was found to be significantly higher in tungsten-rich and tungsten + copper containing weld metal. The results could be explained by a higher driving force for precipitation of {gamma}{sub 2} in these.

Sponsoring Organization:
USDOE
OSTI ID:
367287
Journal Information:
Metallurgical Transactions, A, Vol. 27, Issue 8; Other Information: PBD: Aug 1996
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
STAINLESS STEELS
ARC WELDING
WELDED JOINTS
MICROSTRUCTURE
TUNGSTEN
METALLURGICAL EFFECTS
COPPER
CHEMICAL COMPOSITION
AGING
PRECIPITATION
INTERMETALLIC COMPOUNDS
PHASE STUDIES
AUSTENITE
FERRITE
THERMODYNAMICS
KINETICS
COMPUTER CALCULATIONS