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CEWELD® FL 880 is also suitable for welding both low alloy steels for use at elevated temperatures and in combination with austenitic stainless steels.
It is suitable for joint welding and surfacing of:
creep resistant CrMo steels for boiler, vessel and pipe fabrication
Martensitic and ferritic Cr(NiMo) steels with the appropriate wire electrodes and heat treatments
Austenitic CrNi(Mo) steels (including ELC grades) resistant to intergranular corrosion in both as-welded and solution treated condition
High alloy CrNi(Mo) steels for low temperature service and heat resistant steels
High-alloy Cr(NiMo) steels in combination with low-alloy steels (dissimilar joints)
Nickel base alloys using NiCr and NiCrMo wire electrodes.
CEWELD® FL 880 is also suitable for welding both low alloy steels for use at elevated temperatures and in combination with austenitic stainless steels.
It is suitable for joint welding and surfacing of:
creep resistant CrMo steels for boiler, vessel and pipe fabrication
Martensitic and ferritic Cr(NiMo) steels with the appropriate wire electrodes and heat treatments
Austenitic CrNi(Mo) steels (including ELC grades) resistant to intergranular corrosion in both as-welded and solution treated condition
High alloy CrNi(Mo) steels for low temperature service and heat resistant steels
High-alloy Cr(NiMo) steels in combination with low-alloy steels (dissimilar joints)
Nickel base alloys using NiCr and NiCrMo wire electrodes.
CEWELD® FL 880 is a specially designed glassy fused welding flux for austenitic stainless steels. As a result of the semi-basic flux characteristics, crack free welds can be achieved on most stainless steel grades when welded with the appropriate wire electrodes. The metallurgical behaviour of the flux is neutral (C neutral, low Si pick-up and low Mn burn-out) without Cr compensation.
It is suitable for DC single or DC/AC multi-wire welding and produces smooth, slag free weld beads with flat weld interfaces even in narrow gaps and on preheated workpieces.
Basicity according to Boniszewski: ~1,3
Flux density: 1.5 kg / dm3 (l)
Grain size acc. to ISO 14174: 1 – 16
Current-carrying capacity: up to 900 A DC using one wire or DC/AC multi-wire
Typical wire combinations:
CEWELD® S2Mo ISO 14171-A: S 46 2 AR S2Mo AWS 5.17_5.23: EA2
CEWELD® S2CrMo1 ISO 24598-A: S CrMo1 AWS 5.17_5.23: EB2(R) CEWELD® S2CrMo2 24598-A: S Z CrMo2Mn AWS 5.17_5.23:EB3
CEWELD® S2CrMo5 ISO 24598-A: S CrMo5 AWS 5.17_5.23: EB6 CEWELD® SA 80S-B8 ISO 24598-A: S CrMo9 AWS 5.17_5.23: EB8 CEWELD® SA 90S-B9 ISO 24598-A: S CrMo91 AR AWS 5.17_5.23: EB91
CEWELD®SA 307 ISO 14343-A: ~S 18 8 Mn AWS 5.9: ER307
CEWELD®SA 308L ISO 14343-A: ~S 19 9 L AWS 5.9: ER308L
CEWELD®SA 309L ISO 14343-A: ~S 23 12 L AWS 5.9: ER309L
CEWELD®SA 309LMo ISO 14343-A: ~S 23 12 3 L AWS 5.9: ~ER309LMo
CEWELD®SA 310 ISO 14343-A: S 25 20 AWS 5.9: ER310
CEWELD®SA 316L ISO 14343-A: S 19 12 3 L AWS 5.9: ER316L
CEWELD®SA 317L ISO 14343-A: S 18 15 3 L AWS 5.9: ER317L
CEWELD®SA 318 ISO 14343-A: S 12 12 3 Nb AWS 5.9: ER318
CEWELD®SA 347 ISO 14343-A: S 19 9 Nb AWS 5.9: ER347
CEWELD®SA 2209 ISO 14343-A: S 22 9 3 N L AWS 5.9: ER2209
CEWELD®SA 904L ISO 14343-A: S 20 25 5Cu L AWS 5.9: ER385
CEWELD®SA 2594 ISO 14343-A: 25 9 4 N L AWS 5.9: ER2594
CEWELD®SA Nicro 600 ISO 18274-A: S Ni 6082 (NiCr20Mn3Nb) AWS 5.14: ERNiCr-3
CEWELD®SA Nicro 625 ISO 18274-A: S Ni 6625 (NiCr22Mo9Nb) AWS 5.14: ERNiCrMo-3
CEWELD®SA Alloy 825 ISO 18274-A: S Ni8065 (NiFe30Cr21Mo3) AWS 5.14: ERNiFeCr-1
CEWELD®SA Alloy C-276 ISO 18274-A: S Ni 6276 (NiCr15Mo16Fe6W4) AWS 5.14: ERNiCrMo-4
