Sub Arc wire & Flux
WBSAWF-B1
Classifications
AWS A5.17 : F7A2-EM12KAWS A5.17 : F6 A4 – EM12 F7 A8 – F7 P8 – EH12KDIN 32 522 : B FB 165 AC 12 MHP5 EN760 : A AB 1 67 AC H 5
Wire Specifications
WBS1 : AWS A5.17 F7A2-EL12 / BSEN 14171-A : S1
WBS1Si : AWS A5.17 F7A2-EL12K / BSEN 14171-A : S1Si WBS2Si : AWS A5.17 F7A2-EM12K / BSEN 14171-A: S2Si WBS3Si : AWS A5.23 F7A8–EG-G, F7P8-EG-G
WBSAWF-B1 is an agglomerated fluoride-basic flux most suited to weld mediumtensilesteels.
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The neutral behaviour of WBSAWF-B1 in terms of silicon and manganese pick-upand burn off is suited for both WBS1Si, WBS2Si and WBS3Si type wires.The flux has been developed for welding with twin or multi-wire processes. The flux can be welded on DC and AC.
WBSAWF-B3
Classifications
AWS A5.17: F6 A4 – EM12
F7 A8 – F7 P8 – EH12K
AWS A5.23: F7 A10 – E Ni 1 – Ni1
F8 A6 – F8 P6 – EA3 – A3
F8 A2 – F7 P4 – EB2 – B2
F9P0-EB2-B2, F7P15-ENi3
F9P2-EG-B3, EB9
EF5
F7A4-EM12K
F7A5-EM12K
F7A2-EM12K
EN 14171: SA FB 1 55 AC H5
DIN 32 522: B FB 155 AC 10 MHP5
Wire Specifications
WBS3Si: AWS A5.23: F7A8–EG-G, F7P8-EG-G
WBSD2 1Ni: AWS A5.23: ENi1 F8P6ENi1
WBSD3 1Ni 1/4Mo: AWS A5.23: F8A10-EG-G, F8P10-EG-G WBSD3 1Ni 1/2Mo: AWS A5.23: F9A6-EG-G, F9P6-EG-G WBSD3Mo: AWS A5.23 F8A6-EG-A4, F8P6-EGA4
WBSD2 1NiCrMo: AWS A5.23: F1-P4-EG-G
WBSD2 1NiCrMo: AWS A5.23: F1-P4-EG-G
WBS3 NiCrMo: AWS A5.23: EF5
WBS2-2 1/2Cr1Mo: AWS A5.23: F9P2-EG-B3
WBS2-Ni-3: AWS A5.23: F7P15-ENi3
WBS2Ni1C: AWS A5.23: EG
WB5Cr ER50: AWS A5.28: ER80S-B8
WB9Cr ER50: AWS A5.28: ER90S-B9
WB9Cr (mod): AWS A5.23: EB9 WBP92: AWS A5.23: EG
WBSAWF-B3 is an agglomerated basic flux most suited to weld high-tensile, fine-grain steels as well as steels which require high toughness at sub-zero temperatures. As a result, the flux has been used where CTOD is a requirement.
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The neutral behaviour of WBSAWF-B3 in terms of silicon and manganese pick-up and burn off is suited for WBS3-SAW type wires.The flux has been developed for welding with twin or multi-wire processes.The flux can be welded on DC and AC.Flux should be re-dried @ 300-350ï‚°C for 1 hour, prior to use.
WBSAWF-B3SR
Classifications
AWS A5.17: F6 A4 – EM12
F7 A8 – F7 P8 – EH12K
AWS A5.23: F7 A10 – E Ni 1 – Ni1
F8 A6 – F8 P6 – EA3 – A3
F8 A2 – F7 P4 – EB2 – B2
F9P0-EB2-B2, F7P15-ENi3
F9P2-EG-B3, EB9
EF5
F7A4-EM12K
F7A5-EM12K
F7A2-EM12K
DIN 32 522: B FB 155 AC 10 MHP5
EN 14171: A FB 1 55 AC H 5
Wire Specifications
WBS3Si : AWS A5.23 F7A8–EG-G, F7P8-EG-G
WBS4 : AWS A5.23 F7A8–EG-G, F7P8-EG-G
WBSD2 1Ni : AWS A5.23 : ENi1 F8P6ENi1
WBSD3 1Ni 1/4Mo : AWS A5.23 : F8A10-EG-G, F8P10-EG-G WBSD3 1Ni 1/2Mo : AWS A5.23 : F9A6-EG-G, F9P6-EG-G WBSD3Mo : AWS A5.23 F8A6-EG-A4, F8P6-EGA4
WBSD2 1NiCrMo : AWS A5.23 : F1-P4-EG-G
WBSD2 1NiCrMo : AWS A5.23 : F1-P4-EG-G
WBS3 NiCrMo : AWS A5.23 : EF5
WBS2-1¼Cr½ Mo : AWS A5.23 : F9P0-EB2-B2
WBS2-21/2Cr1Mo : AWS A5.23 : F9P2-EG-EB3
WBS2-Ni-3 : AWS A5.23 : , F7P15-ENi3
WBS2Ni1Cu : AWS A5.23 : EG
WB5Cr ER502 : AWS A5.28 : ER80S-B8
WB9Cr ER505 : AWS A5.28 : ER90S-B9
WB9Cr : AWS A5.23 : EB91
WBSAWF-B3SR is an agglomerated basic flux most suited to weld high-tensile, finegrain
steels as well as steels which require high toughness at sub-zero temperatures.
As a result, the flux has been used where CTOD is a requirement.
​
The neutral behavior of WBSAWF-B3SR in terms of silicon and manganese pick-up and burn off is suited for WBS3-SAW type wires. The flux has been developed for welding with twin or multi-wire processes. The flux can be welded on DC and AC. Flux should be re-dried @ 300-350oC for 1 hour, prior to use. CTOD data @ -10°C >25mm
WBSAWF-B4
Classifications
AWS A5.17: F7 AP8 – EH12K
AWS A5.23: F8 AP4-EA2-A2
F8 AP8-EG-G
F8P2-EB2-B2
F8P4-EB3-B3
EN 14174: SA FB 1 55 AC H5
EN 14171: S 46 6 FB S3S
S 50 4 FB S2 Mo S 50 6 FB S0
Wire Specifications
​WBSD3: AWS A5.23 F7A8–EG-G, F7P8-EG-G
WBSD3 1Ni 1/4Mo: AWS A5.23: F8A10-EG-G, F8P10-EG-G WBSD3 1Ni 1/2Mo: AWS A5.23: F9A6-EG-G, F9P6-EG-G WBSD3Mo: AWS A5.23 F8A6-EG-A4, F8P6-EGA4
WBSD2 1NiCrMo: AWS A5.23: F1-P4-EG-G
WBS2-1¼Cr1/2Mo: AWS A5.23: F9P0-EB2-B2
WBS2-2 1/2Cr1Mo: AWS A5.23: F9P2-EG-B3
WBSAWF-B4 is an agglomerated basic flux most suited to weld high-tensile, fine-grain steels as well as steels which require high toughness at sub-zero temperatures. As a result, the flux has been used where CTOD is a requirement.
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The neutral behaviour of WBSAWF-B4 in terms of silicon and manganese pick-up and burn off is suited for WBS3-SAW & WBNiMo type wires.The flux has been developed for welding with twin or multi-wire processes.The flux can be welded on DC and AC. Damp flux should be re-dried @ 300-350ï‚°C for 1 hour, prior to use.
WBSAWF-SSCR
Classifications
BS EN 14174 : S A AF 2 5644 DC H5 TUV /CE
Wire Specifications
WB308L-SAW : AWS A5.9 : ER308L
WB253MA-SAW : AWS A5.9 : EG
WB347H-SAW : AWS A5.9 : ER347H
WB316L-SAW : AWS A5.9 : ER316L
WB309L-SAW : AWS A5.9 : ER309L
WB309LMo-SAW : AWS A5.9 : ER309LMo
WB22-9-3L-SAW : AWS A5.9 : ER2209
WB25-9-3L-SAW : AWS A5.9 : ER2594
WBSAWF-SSCR can be used in combination with a wide range of austenitic and duplex stainless steels and Nickel base alloys.
The flux is metallically neutral with no Cr compensation.
The flux has been developed for welding with twin or multi-wire processes.The flux can be welded on DC and AC. Damp flux should be re-dried @ 300-350oCfor 1 hour, prior to use.