Type
A specially designed hybrid alloy between 308H and 316H for high temperature applications.
classification
AWS
A 5.9: ER16-8-2
EN ISO
14343-A: W 16 8 2
Anwendungen

Used mainly in power generation and chemical process industries on applications such as, steam turbines, catalytic crackers, transfer piping and furnace accessories.

Type
A specially designed hybrid alloy between 308H and 316H for high temperature applications.
Anwendungen

Used mainly in power generation and chemical process industries on applications such as, steam turbines, catalytic crackers, transfer piping and furnace accessories.

Eigenschaften

A specially designed composition where Molybdenum % is reduced to form a hybrid alloy between 308H and 316H, operates in temperatures up to 800 °C. CEWELD® 16.8.2 Tig gives a very high resistance to thermal embrittlement. Creep ductility is enhanced at temperatures above 650 °C.

Klassifikation
AWS
A 5.9: ER16-8-2
EN ISO
14343-A: W 16 8 2
F-nr
4
FM
5
Geeignet für

1.4948, 1.4941, 1.4961, 1.4919,  

X6CrNi18-10, X8CrNiTi18-10, X8CrNiNb16-13, X6CrNiMoB17-12-2,

304H, 321H , 347H,  316H, 

UNS 30409, S32109,S34709, S31609, 304S51, 321S51, 347S51, 316S51, 316S53

Zulassungen
CE
Schweißpositionen
PA
PB
PC
PD
PE
PF
Rücktrocknung
Not required
Gas acc. EN ISO 14175
I1, I3
Analyse
C Si Mn P S Cr Ni Mo Nb Ti N W Cu
0.05 0.4 1.3 0.01 0.003 15.3 8.4 1.2 0.02
Mechanische Gütewerte
Heat
Treatment
RP0,2
(MPa)
Rm
(MPa)
A5
(%)
Impact Energy (J) ISO-V Hardness
-196°C
As Welded 420 850 >35 90 HRc