Forged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904L

China Forged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904L, Find details about China Welding Neck Flange, Blind Flange from Forged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904L

Model NO.
WELDING NECK
Manufacturing Way
Forging
Ndividual Drawing
Welcome
Trademark
TY
Transport Package
Pallet/Wooden Case
Specification
ANSI B16.5
Origin
China
HS Code
73072100
Model NO.
WELDING NECK
Manufacturing Way
Forging
Ndividual Drawing
Welcome
Trademark
TY
Transport Package
Pallet/Wooden Case
Specification
ANSI B16.5
Origin
China
HS Code
73072100

Austenitic Stainless Steel
Austenitic steels are the most popular grades of stainless steels because of their ductility, ease of working and good corrosion resistance and are very commonly used in manufacture of piping components. Austenitic steels are non-magnetic and non-hardenable by heat treatment, however they can be hardened by cold working. The most commonly used stainless steel grades are Type 304, Type 316 and Type 321.
Stainless steel grades with suffix L have low carbon content. The low carbon content provides good weldability and good corrosion resistance after welding, however they have lower strength than the grades with higher carbon content. The dual certified grades of stainless steel are commonly used in the industry such as SS 304/304L or SS 316/316L. For e.g. the SS 304/304L dual certified grade has lower carbon content similar to SS 304L grade but higher mechanical strength of SS 304 grade.
Type 304 grade contains approximately 18% Chromium and 8% Nickel.
Effect of carbon on corrosion resistance
The lower carbon variants (316L) were established as alternatives to the standards (316) carbon range grade to overcome the risk of intercrystalline corrosion (weld decay), which was identified as a problem in the early days of the application of these steels. This can result if the steel is held in a temperature range 450 to 850°C for periods of several minutes, depending on the temperature and subsequently exposed to aggressive corrosive environments. Corrosion then takes place next to grain boundaries.
If the carbon level is below 0.030% then this intercrystalline corrosion does not take place following exposure to these temperatures, especially for the sort of times normally experienced in the heat affected zone of welds in thick sections of steel.
Effect of carbon level on weldability
There is a view that the low carbon types are easier to weld than the standard carbon types.
There does not seem to be a clear reason for this and the differences are probably associated with the lower strength of the low carbon type. The low carbon type may be easier to shape and form, which in turn may also affect the levels of residual stress left the steel after is forming and fitting up for welding. This may result in the standard carbon types needing more force to hold them in position once fitted-up for welding, with more of a tendency to spring-back if not properly held in place.
The welding consumables for both types are based on a low carbon composition, to avoid intercrystalline corrosion risk in the solidified weld nugget or from the diffusion of carbon into the parent (surrounding) metal.
Dual-certification of low carbon composition steels
Commercially produced steels, using current steelmaking methods, are often produced as the low carbon type as a matter of course due to the improved control in modern steelmaking. Consequently finished steel products are often offered to the market dual certified to both grade designations as they can then be used for fabrications specifying either grade, within a particular standard.

Raw Material Specification

We can manufacture acc.to below Austenitic Stainless Steel

          ASTM    / ASME                   German Grade No.                           UNS
  • A/SA182-F304                    1.4301                                             S30400
  • A/SA182-F304H                  1.4948                                             S30409
  • A/SA182-F304L                  1.4306/1.4307                                 S30403
  • A/SA182-F310                    1.4841                                             S31000
  • A/SA182-F316                    1.4401                                             S31600
  • A/SA182-F316H                  1.4919                                             S31609
  • A/SA182-F316L                  1.4404/1.4435                                 S31603
  • A/SA182-F316Ti                 1.4571                                             S31635
  • A/SA182-F317L                  1.4438                                             S31703
  • A/SA182-F321                    1.4541                                             S32100
  • A/SA182-F321H                  1.4878                                             S32109
  • A/SA182-F347                    1.4550                                             S34700
  • A/SA182-F347H                  1.4550                                             S34709
  • A/SA182-F904L                  1.4539                                             N08904
  • A/SA182-F44                      1.4547                                             S31254

Shipped Flange Photos

Forged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904LForged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904LForged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904LForged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904LForged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904L
Forged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904L
Forged Flange A182/SA182 F304 F304L F304h F316 F316L F316ti F321 F321h F347 F347h F317 F317L F904L/304 304L 304h 316 316L 316ti 321 321H 347 347H 317 317L 904L

Production Range

DN15-DN3000
Maximum weight 6tons
25,000tons production annual year

Manufacturing Standard

ANSI B16.5,ANSI B16.47 Series A&B,ANSI B16.48,ANSI B16.36
API 605,API 16D,API 17D
BS4504,BS3293
DIN
AS
EN1092-1
GOST
EEMUA145

Inspection Certificate

EN10204-3.1
EN10204-3.2 byTUV,BV,Lloyds,GL,DNV,SGS,ABS,RINA,Moody or other third parties