DAIKOWM 625W

GMAW
  • NICKEL ALLOYS
625W

Description

Solid wire with nominal composition 64% Ni, 22% Cr and 9% Mo (Nb free)
The chemistry is very similar to ERNiCrMo-3 but Nb free. It ensures good resistance to hot cracking and a microstructure free of intermetallic phases (Niobium Nitride) with a very good toughness. The properties of this filler metal are suitable to weld superduplex and superaustenitic in low temperature applications with high impact toughness and cryogenic 9%Ni steels. Used for welding of Nickel-Chromium-Molybdenum alloys of similar composition as well as for cladding on low alloyed steels. Also suitable when component must be plastically deformed after welding.
Specifications
EN ISO 18274
S Ni 6660
AWS A5.14
ERNiCrMo-20
Shielding
I1, I3
Positions
PA, PB, PC, PD, PE, PF, PG
Current
DC+
Packaging Type
Drums, DIN 760 reel, B300, D200 and D100 spools.
Asme qualifications
F-No (QW432)
43
A-No (QW442)
-

Pren

60.28
Chem. Comp. %
0
C
0.01
Mn
0.04
Ni
64
Cr
22
Nb
0.01
Al
0.1
P
0.003
S
0.001
Mo
10
Si
0.05
Cu
0.05
Fe
0.5
Ti
0.1
W
3.2
Mechanical Properties
min
variant
Tensile strength Rm MPa
750*
760
Yield strength Rp0.2 MPa
0
500
Elongation A (L0=5d0) %
0
40
Impact Charpy ISO-V
-
130J @ 20°C
Impact Charpy ISO-V
-
110J @ -50°C
Welding Parameters
0 mm
1 mm
Ampere
140A - 200A
150A - 210A
Voltage
23V - 27V
25V - 29V
Packaging
Ø 0,8÷1,6mm
Ø 0,8÷1,6mm
Packaging Type
Drums, DIN 760 reel, B300, D200 and D100 spools.
Drums, DIN 760 reel, B300, D200 and D100 spools.
625W
Description

Application

This consumable closely resembles DAIKOW 625 (ERNiCrMo-3), albeit without the inclusion of Niobium (Nb). The fully austenitic weld metal it produces exhibits exceptional ductility, coupled with superior impact strength even in low-temperature conditions. This consumable is adept at mitigating hot cracking, ensuring a microstructure free of intermetallic phases like Niobium Nitride, and delivering excellent toughness. Its noteworthy characteristics extend to outstanding resistance against general, pitting, and intercrystalline corrosion, particularly in chloride-containing environments. This makes the consumable particularly well-suited for applications involving seawater and offshore environments. Additionally, it proves effective when components, such as pipes or fittings, need to undergo plastic deformation after welding. The scaling temperature for this consumable is approximately 1100°C. These combined attributes make it a versatile choice for a range of applications, offering reliable performance and durability.

Alloy Type

The nominal composition (wt. %) of filler metal of this classification is 64 Ni, 22 Cr, and 9 Mo (niobium free).

Microstructure

Fully austenitic with extra low content of secondary phases.

Materials

Suitable for welding of Nickel-Chromium- Molybdenum alloys of similar composition as well as for cladding on low alloyed steels. Also suitable to weld superduplex, superaustenitic and cryogenic 9%Ni steels.
  • EN W.Nr.: 1.4547, 1.4529, 2.4856, 1.4539, 1.4410
  • ASTM: A494 CW-6MC, 904L, A182 F53, A182 F55, SAF 2507, A890 Gr. 5A, A890 6A
  • UNS: N08926, S31254, N06625, S32750, S32760, N08904, S32750
  • PROPRIETARY: Inconel® 625, 601 (Special Metals), Incoloy® 800H, 825 (Special Metals), Nicrofer 6020hMo, 6022hMo (VDM), 254 SMO (Outokumpu), SAF 2507 (Sandvik)

Welding & PWHT

Prior to initiating the welding or application of heat to any nickel-base alloy, it is paramount to ensure the base metal undergoes a comprehensive cleaning process. Substances such as oil, grease, paint, lubricants, marking pencils, temperature-indicating materials, threading compounds, and similar elements frequently contain sulfur or lead, presenting a potential risk of inducing cracking (embrittlement) in both the base metal and the weld metal if present during welding or heating. For welding activities involving fully austenitic and nickel base steels, meticulous care should be taken to minimize factors such as heat input, interpass temperature, and dilution with the parent metal. It is crucial to strictly adhere to a low heat input, capped at a maximum of 1.5 kJ/mm, and observe an interpass temperature limit of 100°C. Generally, post-weld heat treatment (PWHT) is not required; however, in specific cases, quench annealing at 1050°C may be necessary.

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