Electrochemical Behavior and Its Relation to Composition and Sensitization of NiCrMo Alloys in ASTM G-28 Solution

“…The TTT diagram of Figure 3-4 is similar to that published by Heubner et al (1989). In this study, the boundary for the onset of precipitation is shifted slightly to lower temperatures and shorter times probably because it is easier to see the beginning of precipitation at grain boundaries in a SEM than in an optical microscope, which is what was used by Heubner et al (1989).…”

“…In this study, the boundary for the onset of precipitation is shifted slightly to lower temperatures and shorter times probably because it is easier to see the beginning of precipitation at grain boundaries in a SEM than in an optical microscope, which is what was used by Heubner et al (1989). The curve in Figure 3-4 for the beginning of bulk precipitation begins at longer times than in Heubner's diagram.…”

“…These phases tend to be rich in either MO or Cr, which are the elements that give C-22 alloy its excellent corrosion resistance. Precipitation of these phases leads to local Cr and MO depletion, which can cause an increased susceptibility to localized corrosion (Leonard 1969, Hodge 1973, Tawancy et al 1983, Heubner et al 1989, Tawancy 1996and 1980. At lower temperatures (below approximately 6OO"C), long-range ordering has been observed to occur in Ni-Cr-Mo alloys (Tawancy et al 1983, Tawancy 1996and 1980, Rebak and Koon 1998, and Summers et al 1998.…”

“…Hodge (1973) measured volume fraction of precipitation in C-276, a Ni-Cr-Mo alloy similar to C-22 alloy with nominally 16% Cr, 16% MO, 4% W, 5% Fe, and found the activation energy to be 260 kJ/mol (62 kcal/mol). Heubner et al (1989) looked at aged C-22 alloy samples optically and produced a Time-Temperature-Transformation (TTT) diagram, but it was not within the scope of that paper to extrapolate the kinetics of precipitation to lower temperatures. The preliminary results presented here are a first attempt at measuring the kinetics of intermetallic precipitation in C-22 alloy.…”

Prediction of the Lifetime Integrity of a Nuclear Waste Container Material Based on Thermal Stability Studies

“…The TTT diagram of Figure 3-4 is similar to that published by Heubner et al (1989). In this study, the boundary for the onset of precipitation is shifted slightly to lower temperatures and shorter times probably because it is easier to see the beginning of precipitation at grain boundaries in a SEM than in an optical microscope, which is what was used by Heubner et al (1989).…”

“…In this study, the boundary for the onset of precipitation is shifted slightly to lower temperatures and shorter times probably because it is easier to see the beginning of precipitation at grain boundaries in a SEM than in an optical microscope, which is what was used by Heubner et al (1989). The curve in Figure 3-4 for the beginning of bulk precipitation begins at longer times than in Heubner's diagram.…”

“…These phases tend to be rich in either MO or Cr, which are the elements that give C-22 alloy its excellent corrosion resistance. Precipitation of these phases leads to local Cr and MO depletion, which can cause an increased susceptibility to localized corrosion (Leonard 1969, Hodge 1973, Tawancy et al 1983, Heubner et al 1989, Tawancy 1996and 1980. At lower temperatures (below approximately 6OO"C), long-range ordering has been observed to occur in Ni-Cr-Mo alloys (Tawancy et al 1983, Tawancy 1996and 1980, Rebak and Koon 1998, and Summers et al 1998.…”

“…Hodge (1973) measured volume fraction of precipitation in C-276, a Ni-Cr-Mo alloy similar to C-22 alloy with nominally 16% Cr, 16% MO, 4% W, 5% Fe, and found the activation energy to be 260 kJ/mol (62 kcal/mol). Heubner et al (1989) looked at aged C-22 alloy samples optically and produced a Time-Temperature-Transformation (TTT) diagram, but it was not within the scope of that paper to extrapolate the kinetics of precipitation to lower temperatures. The preliminary results presented here are a first attempt at measuring the kinetics of intermetallic precipitation in C-22 alloy.…”

Prediction of the Lifetime Integrity of a Nuclear Waste Container Material Based on Thermal Stability Studies

“…Other nickel base alloys containing 13 to 16 % MO show similar behaviour [21], whereas in several molybdenum-free grades (alloys 600, 690, 800, X-750, etc. ), the sensitivity decreases with time, and disappears after 10 to 20 hours at around 700°C.…”

Mechanical Properties, Corrosion Resistance and Microstructure of Both Regular and Titanium Hardened 625 Alloys

Localized Corrosion