Inconel Alloy X750
Inconel X750, Haynes X750, Alloy X750, Nickel X750, Pyromet X750, NickelvacX750, Nicorros 7016
INCONEL alloy X-750 (UNS N07750/W. Nr. 2.4669) is a precipitation-hardenable nickel-chromium alloy used for its corrosion and oxidation resistance and high strength at temperatures to 1300°F. Although much of the effect of precipitation hardening is lost with increasing temperature over 1300°F, heat-treated material has useful strength up to 1800°F. Alloy X-750 also has excellent properties down to cryogenic termperatures. Depending on the application and the properties desired, various heat treatments are employed. For service above 1100°F, particularly where loads are to be sustained for long times, optimum properties are achieved by solution treating (2100°F) plus stabilization treating (1550°F) plus precipitation treating (1300°F). For service below 1100°F, the alloy may be strengthened by precipitation treating after hot or cold working or by precipitation treating after equalizing or solution treating. A furnace-cooling treatment is also used to develop optimum properties for some applications. Available Product Forms: Sheet, strip, plate, round bar, flat bar, forging stock, hexagon, wire, tube and extrudedSpecifications
INCONEL alloy X-750 is designated as UNS N07750 and W. Nr. 2.4669. The alloy is stated in NACE MR-01-75.
Rod, Bar and Forging Stock: ASTM B 637; ASME SB 637; ISO 9723-9725; AMS 5667; AMS 5671; AMS 5747; EN 10269. Plate, Sheet and Strip: AMS 5542 and 5598. Wire: BS HR 505, AMS 5698; AMS 5699Chemical Composition
Nickel (plus Cobalt)…………………………………………….70.00 min.
Chromium………………………………………………………….14.0-17.0
Iron……………………………………………………………………….5.0-9.0
Titanium……………………………………………………………..2.25-2.75
Aluminum…………………………………………………………..0.40-1.00
Niobium (plus Tantalum)……………………………………….0.70-1.20
Manganese………………………………………………………..1.00 max.
Silicon……………………………………………………………….0.50 max.
Sulfur…………………………………………………………………0.01 max.
Copper………………………………………………………………0.50 max.
Carbon………………………………………………………………0.08 max.
Cobalt1……………………………………………………………….1.00 max.