Alloy 317L is a low-carbon, high molybdenum austenitic stainless steel with a higher nickel alloy content than 316L. Developed to resist the attack of sulfuric acid compounds, this alloy combines good corrosion resistance with excellent mechanical properties and ease of fabrication.
321 - Rolled Alloys, Inc.321. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°F temperature range. For service temperatures up to about 1600°F, a stabilizing treatment at 1550-1650°F, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.
Under high-temperature conditions, 316 stainless steel has a wide range of uses when the concentration of sulfuric acid is lower than 15% and higher than 85%. And the paper production process has good corrosion resistance. Applications of 321 stainless steel pipe:Typical compositional ranges for grade 321 stainless steel pipe are given in table 1.
800H Nickel Bar - 800HT Nickel Rod & Wire TW MetalsNeither alloy is suggested for sulfuric acid service except at lower concentrations and temperatures. Like the austenitic stainless steels, Nickel Alloy 800H/HT are subject to sensitization (precipitation of chromium carbides at grain boundaries) if heated for excessive time in
ASTM A240 Grade 316L Stainless Steel Sheet and SA 240 Grade 316L Stainless Steel Sheet comes in many types and thicknesses.The main types of SS 316L sheets are perforated sheets, Chequered plate, Shim sheet, Strips, Coils, Foils, Flats and Circles. ss 316 plates are produced by two manufacturing processes Hot rolled and cold worked.
Alloy 321 stainless is a titanium stabilized grade commonly used for service in the 538-870°C temperature range. For service temperatures up to about 870°C, a stabilizing treatment at 842-899°C air cool, may be used to provide optimum resistance to intergranular corrosion in the heat affected zone (HAZ), and to polythionic acid stress corrosion cracking.
Sec. I Page 1 - EMJSheets, Plates, Bars, angles UnS S30400, 30403 color Marking Type 304 Bars, Angles Pink and White Type 304L Bars Pink with Brown Stripe Type 304 is the basic 18 8 chromium-nickel stainless steel. It combines excel-lent mechanical properties with remarkable resistance to many corrosive agents encountered in domestic and
Stainless Steel 321, UNS S32100, 321 Stainless, Type 321 321 Stainless Steel Overview. Oxidation resistant to 1600°F. Stabilized against weld heat affected zone (HAZ) intergranular corrosion. Resists polythionic acid stress corrosion cracking.
STAINLESS STEELS Austenitic stainless steels include the 200 and 300 series of which type 304 is the most common. The primary alloying additions are chromium and nickel. Ferritic stainless steels are non-hardenable Fe-Cr alloys. Types 405, 409, 430, 422 and 446 are representative of this group. Martensitic stainless steels are similar in
Stainless steel and acid resistant steel - Austenite Grade:1.4301 / 1.4307:Description:Austenitic stainless chromium-nickel steel. Has good corrosion resistance, especially in natural environmental media and in the absence of significant chlorine and salt concentrations and welding work
Stainless steel seamless elbow 90° DN150 OD 159 mm x 4,5 Stainless steel plate flanges 1.4541 / 321; Weld neck flanges. Stainless steel weld neck flanges 1.4307/304L; Our offer includes over 20 types of steel:stainless, acid-resistant, heat-resistant (up to 1150 * C), duplex, super duplex and others. We invite you to
Depending on acid concentration and the metal involved, sulfuric acid can behave as either a reducing acid or an oxidizing acid. In lower concentrations (up to about 70%) and temperatures on steel or stainless steel, it is reducing. At concentrations over 70%, and into the oleum range, the acid is oxidizing to steel and stainless steel.321 Stainless Steel AK Steel321 STAINLESS STEEL TYPE 321 is a stabilized austenitic stainless steel similar to Type 304 but with a titanium addition of at least five times the carbon content. This titanium addition reduces or prevents carbide precipitation during welding and in 800 1500 °F (427 816 °C) service. It also improves the elevated temperature