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Grade: Monel 400 ( 2.4360) ( 2.4360), Monel K500 (2.4375), Monel R-405
|K500 (2.4375)||63.0 min||05 - 2||0.25 max||1.5 max||0.5 max||27.0 - 33.0||2.3 - 3.15||0.35 - 0.85||0.010 max|
|400 ( 2.4360) ( 2.4360)||63.0- 70.00 max||2.50 max||0.3 max||2.00 max||0.50 max||Remainder||-||-||0.024 max|
|Grade||Tensile (ksi)||.2% Yield (ksi)||Elongation %||Hardness (HRb)|
|400 ( 2.4360) ( 2.4360)||75 to 90||25 to 50||60 to 35||60 to 80|
|K500 (2.4375)||Psi – 1,60,000 , MPa – 1100||Psi – 1,15,000 , MPa – 790||20 %||-|
Stainless Steel :
Grade: 304 (1.4301), 304L(1.4307), 304H (1.4948), 309 (1.4828), 309S, 310, 310S (1.4845), 316( 1.4401), 316H, 316L( 1.4404 /1.4432) , 317, 317L (1.4438), 321 (1.4541), 321 H(1.4878), 347 (1.4550), 347H (1.4961), 904L (1.4539)
Grade: 2205 (1.4507)
Super Duplex Steel:
Grade: 2507 (UNS S32750)
Grade: Inconel 600 (2.4640), Inconel 601 (2.4851), Inconel 625 (2.4856), Inconel 718(2.4668)
Grade: Incoloy 800(2.4958), Incoloy 800H, Incoloy 800HT
Grade: Nickel 200, Nickel 201
Grade: Gr.1 (3.7025) , Gr.2 (3.7035) , Gr.3(3.7055) , Gr.5(3.7164/65), Gr. 7(3.7235) , Gr. 11 (3.7225)
Grade: Hastalloy B2, Hastalloy B3, Hastalloy C22, Hastalloy C276, Hastalloy X
The principal methods of hot working are extrusion, drawing, forging and rolling. Rolling is the most extensive employed forming process, though some limitations may apply to the process. Rolling mainly consists of three major sub-categories: flat rolling, shape rolling (with specifically designed roll grooves) and pipe rolling (including piercing). Forging may be sub-categorized as hamming, pressing, etc. .
Forging may be performed under hammers, in mechanical presses and upsetters or by a method known as roll forging. Pressing generally includes the manufacture of forged articles in hydraulic presses. Extrusion usually is performed in hydraulic presses which force the hot steel through a die. Rolling is performed in rolling mills of a variety of types. .
The two principal reasons for perform metal forming at elevated temperatures (hot working) are to reduce the forming loads through the reduction of the resistance of the steel to deformation, and to develop preferred metallurgical structures for strength and ductility of the finish products.
The most appropriate manufacturing method of a product will be decided with consideration of its material, sizes, shape, use, standards and other properties.