DAIKOSTRIP 309LNb

ESW, SAW
  • AUSTENITIC STAINLESS STEELS
309LNb

Description

Cladding strip 309LNb alloy
Used for cladding applications to create corrosion resistance layer and buffer layer. It is suitable to produce a 347 composition in single pass. Typical applications include cladding of vessel for chemical and petrochemical industry, refinery, etc. …
Specifications
ISO 14343-A
B 23 12 Nb
AWS A5.9
EQ309LNb
Shielding
DAIKOFLUX 930, 937AS
Positions
PA
Current
DC+
Packaging Type
coils standard 30x0,5mm, 60x0,5mm, 90x0,5mm, weight 25-300kg, width and specific weights available on request
Asme qualifications
F-No (QW432)
6
A-No (QW442)
8

Ferrite

8-20 FN

Pren

24.178

Hardness

85HRB
Chem. Comp. %
0
C
0.015
Mn
1.95
Ni
12.5
Cr
23.8
N
0.003
Nb
0.7
P
0.015
S
0.01
Mo
0.1
Si
0.2
Cu
0.05
Mechanical Properties
min
variant
Tensile strength Rm MPa
550
590
Yield strength Rp0.2 MPa
350
410
Elongation A (L0=5d0) %
25
40
Impact Charpy ISO-V
-
-
Impact Charpy ISO-V
-
-
309LNb
Description

Application

These specialized consumables are meticulously designed for applications necessitating niobium-stabilized weld metal overlays or inlays, specifically on C-Mn or low alloy steels. The inclusion of a minimum niobium content of 0.7% in the undiluted weld metal ensures the formation of a fully stabilized deposit, closely resembling a 347 composition. This characteristic proves particularly advantageous when applied in the initial layer on mild and medium carbon steels. Notably, these consumables find utility as the primary run when welding 321 or 347 clad steels, providing a robust foundation before concluding the process with 347-type weld metal. It's crucial to recognize that while these consumables exhibit versatility, they are not recommended as a substitute for 309L types in dissimilar welded joints. Strategic selection and application of these consumables guarantee optimal results in scenarios requiring the precision of niobium-stabilized weld deposits.

Alloy Type

A low carbon 309 type weld metal with a minimum niobium level of 0.7%.

Microstructure

In the as-welded condition the microstructure consists of austenite with a ferrite content of 8-20FN.

Materials

There are no comparable parent materials and it's normally used for overlays only.

Welding & PWHT

The preheat requirements are contingent on the hardenability of the base material, ranging from no preheat in mild steel to a requirement of up to 200°C in hardenable steels with 0.4% carbon content. With a typical dilution range of 25-30% in medium carbon steel, these consumables have the capability to produce a fully austenitic weld deposit. It is well-established that weld metals containing niobium are particularly susceptible to hot cracking when ferrite is limited. To mitigate dilution in overlays, it is advisable to meticulously control welding parameters and strive for a 50% bead overlap. While post-weld heat treatment (PWHT) may induce some weld metal embrittlement, ductility is expected to remain within acceptable limits under standard conditions. However, fusion boundary embrittlement tends to be more pronounced, necessitating a thorough evaluation through representative procedure tests to establish acceptability.

DO YOU NEED HELP?

Go to our dedicated section or contact us
Contact us
Daiko supporting the environment
Questo sito si avvale di cookie necessari al suo funzionamento ed utili alle finalità illustrate nella cookie policy.

Carrello

Il carrello è vuoto