Ferritic Stainless Steel Alloys

Case-hardening - Wikipedia
Case-hardening or surface hardening is the process of hardening the surface of a metal object while allowing the metal deeper underneath to remain soft, thus forming a thin layer of harder metal (called the "case") at the surface. For iron or steel with low carbon content, which has poor to no hardenability of its own, the case-hardening process involves infusing additional carbon or nitrogen ... Read Article

Stainless Steel Grades - Continental Steel & Tube Company
Also known as "marine grade" stainless steel due to its increased resistance to chloride corrosion compared to type 304. SS316 is often used for building nuclear reprocessing plants. Most watches that are made of stainless steel are made of this grade. ... Access Content

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PrimroseAlloys
Stainless Steel. Primrose Alloys works with a number of stainless steel mills in South Korea, Japan, China and Italy. These mills are known for the quality of their material and their overall reliability, having been approved by renowned companies such as Exxon Mobil, Shell Global, BP, Chevron Corp and Total S.A. ... Access Content

Ferritic Stainless Steel - An Overview | ScienceDirect Topics
Ferritic Stainless Steel. Ferritic stainless steels are Fe-Cr-C alloys with ferrite stabilizers such as aluminum (Al), columbium (Cb), molybdenum (Mo), and titanium (Ti) to inhibit the formation of austenite on heating. ... Access Document

Ferritic Stainless Steel - An Overview | ScienceDirect Topics
Ferritic stainless steel contains higher chromium content than the martensitic stainless steel. Normally the chromium content of the ferritic stainless steel ranges from 14 to 27 wt%. From the Fe–C–Cr diagram sectioned at 18% chromium, shown in Figure 22, it appears that for a low-carbon level, the austenite is not possible to form until a very high temperature, viz 1200 °C is attained ... Access Content

Electro-slag Remelting - Wikipedia
Electroslag remelting (ESR), also known as electro-flux remelting, is a process of remelting and refining steel and other alloys for mission-critical applications in aircraft, thermal power stations, nuclear power plants, military technology, et al.. The electroslag remelting (ESR) process is used to remelt and refine steels and various super-alloys, resulting in high-quality ingots. ... Read Article

An Overview Of Austenitic And Ferritic Stainless Steels
Ferritic Stainless Steels (400 Series) About 20 percent of all stainless steel grades have a ferritic microstructure, with SS430 being the most widely used. SS409 has lower chromium and, therefore, reduced resistance to corrosion. SS439 has greater resistance to corrosion and improved high-temperature stability. ... Retrieve Full Source

Austenitic Stainless Steel - Wikipedia
Austenitic stainless steel is a specific type of stainless steel alloy. Stainless steels may be classified by their crystalline structure into four main types: austenitic, ferritic, martensitic and duplex. Austenitic stainless steels possess austenite as their primary crystalline structure (face centered cubic). ... Get Document

Ferritic Stainless Steel - The Balance
Ferritic stainless steel alloys can generally be classified into five groups, three families of standard grades (Groups 1 to 3 below) and two families of specialty grade steels (Groups 4 and 5 below). While standard ferritic steels are, by far, the largest consumer group in terms of tonnage, demand for specialty grade stainless steels is ... View Document

Ferritic Stainless Steel: Production And Benefits | Stainless ...
The most common uses of ferritic stainless steel is in the automotive industry for things like tail pipes and exhaust systems. Ferritic stainless steel is not hardenable by heat treatment and some grades may crack in the heat-affected weld zone. This means the welding of ferritic stainless steel is only possible with thin sections. ... Retrieve Doc

Ferritic Stainless Steels | Ferritic Stainless Steel
Ferritic Stainless Steels. These grades are often used in higher temperature applications but below 1000F, where higher strength and better oxidation resistance is required over an austenitic. ... Document Retrieval

Boriding - Wikipedia
It is often used on steel, but is applicable to a variety of alloys and cermet materials. A wide range of materials suitable for treatment including plain carbon steels, alloy steels, tool steels, nickel-based super alloys, cobalt alloys, and stellite. The following materials not compatible with boronizing: stainless steels, nitrogen, aluminum ... Read Article

Rolled Metal Products is one of the steel industry’s most respected service centers with facilities across North America. We stock Stainless Steel, Nickel Alloys, Aluminum and other Specialty Metals in coil form and also offer toll processing of various metals including: Stainless Steel, Nickel Alloys, Titanium, Aluminum, Brass, Copper, Carbon Steel, and other Specialty Metals. ... Content Retrieval

Alloys Properties - Stainless Steel And Popular Alloys - Tech ...
Specializing in Stainless Steel and High Temperature alloys. Our most commonly requested alloys, their chemical compositions, and typical applications. Specializing in Stainless Steel and High Temperature alloys. 17% chromium ferritic alloy with good corrosion resistance to 1400°F: ... Retrieve Content

Stainless Steel - Wikipedia
In metallurgy, stainless steel, also known as inox steel or inox from French inoxydable (inoxidizable), is a steel alloy, with a minimum of 10.5% chromium content by mass and a maximum of 1.2% carbon by mass.. Stainless steels are most notable for their corrosion resistance, which increases with increasing chromium content. ... Fetch Document

What Is The Difference Between Austenitic, Ferritic, And ...
These terms refer to the crystal structure of the metal. Regular steel (non-stainless) would be considered “ferritic” because the room-temperature microstructure is comprised of a mix of ferrite and pearlite. Ferrite is soft and ductile, while pearlite is hard and brittle. As the overall content of carbon increases, the proportion of pearlite becomes higher andRead more ... Read Document

Welding Guidelines For Stainless Steel And Nickel Alloys
Ferritic stainless steel alloys, by their nature, tend to weld sluggishly due to their poor flow characteristics. Exaton has developed special chemistries for several grades of ferritic stainless steels to improve this condition. Contact Exaton for more information. ... Retrieve Doc

Difference Between Alloy Steel And Stainless Steel
Ferritic Stainless Steel: This grade of steel contains 10-20% of chromium, with less than 0.1% carbon.This material has stable iron content up to melting point. It can be worked mechanically to get greater hardness. However, it is ductile only over a certain temperature, and overheating the material for a long time makes it brittle. ... View Doc

Ferritic - Stainless | Aluminum | Specialty Alloys
Rolled Metal Products is one of the steel industry’s most respected service centers with facilities across North America. We stock Stainless Steel, Nickel Alloys, Aluminum and other Specialty Metals in coil form and also offer toll processing of various metals including: Stainless Steel, Nickel Alloys, Titanium, Aluminum, Brass, Copper, Carbon Steel, and other Specialty Metals. ... Read More

The Characteristics Of Austenitic Stainless Steel
Ferritic steels have a body-centered cubic (BCC) grain structure, but the austenitic range of stainless steels are defined by their face-centered cubic (FCC) crystal structure, which has one atom at each corner of the cube and one in the middle of each face. ... Read More

Alloy 410S Ferritic Stainless Steel - Sandmeyer Steel
Alloy 410S (UNS S41008) is a low carbon, non–hardening modification of Alloy 410 (UNS S41000) the general purpose 12% chromium martensitic stainless steel. The low carbon and a small alloy addition minimize austenite formation at high temperatures which restricts the alloys ability to harden. 410S remains soft and ductile even when rapidly ... Retrieve Content

Stainless Steel Alloys Selection Guide | Engineering360
Type 410 is the most widely used martensitic stainless steel. It is high strength, low-cost, and heat-treatable and is suited for non-severe corrosion applications. Type 430 is the most widely used ferritic stainless steel, offering standard corrosion resistance. It is often used in decorative applications. ... Document Viewer