The only extra "traps for young players" in converting from the older are the need to ensure that before welding the sheet and any filler rod are grease free, and to gas shield the weld properly.įerritic Grades behave like carbon steel in fabrication, and many customers have told Austral Wright Metals how much they appreciate the lower shearing forces, cleaner, crisper bends, lower distortion in welding and flatter panels achieved. The New Generation ferritic stainless steel grade AWM 404GP ® and 445M2 are high technology, cost effective alternatives to the older grades 304 and 316. PRE = % Chromium + 3.3 x % Molybdenum + 16 x % Nitrogen PRE allows selection of grades for corrosion tests on the basis of experience with known grades. The higher the value, the better the corrosion resistance. *PRE (Pitting Resistance Equivalent) is used to rank the corrosion resistance of stainless steels. Table of Stainless Steel Compositions Grade That's between A$1,200 and $4,800 on the cost of a tonne of 304 and 316. These grades offer significant advantages: corrosion resistance at least as good as the grade they replace, cost savings in the workshop because they are much easier to fabricate, and price savings because they do not contain the element used to make grades non-magnetic - nickel.Īdd price stability, because the cost of nickel is volatile - over the last five years it has varied from $15,000/tonne to over $60/000/tonne. AWM 404GP ® replaces 304, and 445m2 replaces 316 - it contains 1% of molybdenum. Both have at least 21% of chromium, which is more than the grade they replace, and much higher than Grade 430. Both are magnetic, because both are ferritic. The best known duplex grade, 2205, resists corrosion even better than 316 because it contains 22% of chromium and 3% of molybdenum.Īustral Wright Metals stock two New Generation ferritic stainless steel grades, AWM 404GP ® and 445M2. They are all fully magnetic all the time. Then there are the duplex grades of stainless steel, well known for their excellent corrosion resistance. Here are a pipe elbow, and a cap nut, both Grade 316, as cast. So castings are usually magnetic, unless they have been heat treated. They are often quite strongly magnetic.Ĭast austenitic grades are likely to crack in the casting process if they aren't formulated to be somewhat magnetic - the same applies to welds. Stainless steel bolts are made by cold forging the head, and cold rolling or machining the thread. Even when these grades are cut (cold, by shearing) the deformation in the edge of the metal causes magnetism. The strength of the magnetism depends on how much the metal has been deformed. Try a fridge magnet around the bowl of your kitchen sink, which is grade 304 - you might be surprised. As supplied, sheet and coil are non-magnetic, but when they are worked - bent, deep drawn, formed into a tube - they become magnetic. It's not even true that the "non-magnetic" grades are never magnetic. So 304 and 316 are often called austenitic grades, and 409 and 430 are called ferritic grades. In the common magnetic grades the atoms are lined up in a crystal structure known as ferrite - just like in carbon steel. In this photo, you can see that stainless steel is magneticįor the technically minded, in the non-magnetic grades the atoms are lined up in a crystal structure known as austenite. So the common non-magnetic stainless steels have better corrosion resistance than the common magnetic grades because they have more chromium and molybdenum. And in marine environments you need Grade 316, which has 16% chromium and also 2% of molybdenum to help it resist the attack of salt. Grade 304 has 18% of chromium, which makes it suitable for general purposes, including outdoor exposures. Grade 430 has 16% of chromium, and is mostly used indoors. Grade 409 has 11% of chromium, which is plenty for automotive muffler systems. The magnetism myth is because the common magnetic grades of stainless steel, 409 and 430, don't resist corrosion as well as the common non-magnetic grades, 304 and 316. The higher the chromium and molybdenum, the better corrosion resistance. Corrosion resistance depends on how much chromium and (sometimes) molybdenum is in the stainless steel. Magnetism and corrosion resistance are not connected.
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