6% Moly Alloy ?is named after the 6% molybdenum content. Molybdenum is a silvery metal with the sixth highest melting point of any element. Consequently, it is often used in applications that involve extremely intense heat. 6% Moly Alloy also contains high levels of chromium and nitrogen, which also make them highly resistant to corrosion.
Molybdenum is used as an alloying agent in certain grades of steel, Permalloys and Stellites (a series of alloys which contain varying proportions of Cr, Co, W and Mo, are very hard and are used in cutting tools and to protect surfaces subject to heavy wear). Molybdenum Key Properties
6% Molybdenum Superaustenitic Alloys This class of alloys was introduced in the early 1970s, largely in response to the need for a cost effective alloy with resistance to brackish water or seawater environments. The main driving force was power generation and the booming nuclear industry.
Duplex Super Duplex Stainless Steel distributor supplier, duplex, super duplex stainless steel, titanium alloys, 6% moly, Titanium, 6% Moly; tubing, valves, pipe
6 Mo Stainless Steel Alloy 6 Mo (UNS S31254) is a super austenitic stainless steel, its higher levels of molybdenum of 6% and an increase of chromium and nitrogen sets it apart from the 316 grade of stainless steel.
Molybdenum grade stainless steels The generic term “Stainless Steel” covers a large group of iron-base alloys that contain chromium. The term “stainless” implies a resistance to staining or rusting in air. Stainless steels contain at least % chromium, which promotes formation of a thin, chromium-enriched surface oxide.
Molybdenum is a ferrite former. That means that when molybdenum is added to improve the corrosion resistance of an austenitic stainless steel, there has to be an austenite former such as nickel or nitrogen added in order to keep the structure austenitic.
Moly 6 alloys are known for their good thermal electrical conducitivities, high density, high melting point, and greater stiffness than steel. These characteristics make it the ideal alloy for use in high temperatures, above 1100°C , which is higher than steels and nickel-based superalloys.
SSC-6MO (UNS N08367) is a superaustenitic 6% molybdenum alloy that exhibits far greater resistance to chloride pitting, crevice corrosion and stress-corrosion cracking than the standard 300 series and standard duplex stainless steels.
A ubiquitous high-end stainless steel that became popular in the 1990s, ATS-34 is a high carbon and chromium stainless steel that contains molybdenum to increase hardness. This grade of stainless holds a good edge but can be difficult to sharpen because of its high hardness.
6 Moly 6% Moly S31254 N08925 N08926 | Supplier Super Duplex 6 Moly Copper Nickel Molybdenum is used as an alloying agent in certain grades of steel,
6 Mo (UNS S31254) is a super austenitic stainless steel with a high level of molybdenum and nitrogen, providing high resistance to pitting and crevice corrosion
Super Duplex (S32760 and S32750 / 2507); Duplex (S31803 / 2205); 6% Moly ( S31254); Nickel Alloys (Alloy 400, 625, 800, 825, etc); Stainless Steels (316L,
AL-6XN, 254 SMO, 6% Moly Alloys Available at Mega Mex and stress cracking and are up to 50% stronger than conventional stainless steels.
This class of alloys was introduced in the early 1970s, largely in response to the need for a cost effective alloy with resistance to brackish water or seawater
Arc Alloys Ltd offer a large variety of products in 6% Moly (6MO) such as tubing, seamless and 50% stronger than 300-series austenitic stainless steels.
Penn Stainless stock products now includes 6 Moly in sheet, sheet coil, plate, round bar, processed flat bar and tubular Stainless Steel 6 Moly Products
6% Molybdenum Superaustenitic Stainless Steel with Outstanding Resistance One of the advantages of nitrogen-enriched stainless steels such as SSC-6MO
than the common austenitic stainless steels. The ASME design-stress 6% Molybdenum Superaustenitic Stainless Steel with Outstanding Resistance.
Alloy 6 Mo (UNS S31254) is a super austenitic stainless steel, its higher levels of molybdenum of 6% and an increase of chromium and nitrogen sets it apart from