Stainless Steel Flat Bar Grinded EN 1.4404
The austenitic steel with designation 1.4404 contains molybdenum in addition to chromium and nickel. The difference against 1.4301/1.4307 apart from the presence of molybdenum is that the nickel content is greater. This type of stainless steel is often referred to as acid resistant which is to some degree a misnomer since the material resists attack only by weak acids. 1.4404 has low carbon content which means that it can be welded without risking impairment of corrosion resistance in the vicinity of the weld. In terms of strength, 1.4404 is more or less equivalent to the lower alloyed grades 1.4301/1.4307.
Ground round bars in 1.4404 are standardised in EN 10088-3. This standard covers cold-finished round bars with diameters up to 250 mm even though it is normally only smaller dimensions that are available in cold-drawn execution. Tibnor’s programme encompasses diameters up to and including 45 mm.
The presence of molybdenum along with chromium renders 1.4404 resistant to corrosion in weak acids and water containing chlorides so long as the chloride concentration is not too high; an example of an environment where the steel works well is salt-laden coastal atmosphere.
Ground bars of 1.4404 are relatively easy to cold form and, in the event that it is required, weldability is excellent. Austenitic stainless grades like 1.4404 are generally troublesome to machine but working is facilitated through bespoke tooling.
The surface finish of 1.4404 as stocked is 2G as defined in EN 10088-3. Grinding is carried after hot-rolled bars have been annealed, pickled as needed and the surface pre-processed through either cold drawing or peeling. Any remaining surface defects are thereby eliminated. The diameter tolerance of ground bars is h9 as stipulated in ISO 286 - 2 which is a zero-minus tolerance. In other words, the actual diameter is marginally less than the nominal one. In addition, ground bars of stainless steel are very straight (height of arc less than 0.001 x length) with fine surface (Ra <1µm).