Process: MAG joint welding
| Standard designation | Standard analysis of the pure weld metal % | Application and properties | |
| NT® - Alloy 308 L - FD DIN 8556: 19 9 L Material No.: 1.4316 AWS: E 308 LTO-4 EN 12073: T 199 L R M 3 |
C Si Mn Cr Ni |
< 0,04 0,6 1,6 20,0 10,0 |
Austenitic CrNi flux-cored wire in ELC-quality with rutile-acidic slag characteristic; well suited for MAG welding on unstabilised and stabilised corrosion-resistant 19/9-CrNi steels; weld-decay-proof at operating temperatures up to 350 °C; resistant to scale formation up to about 800 °C; NT® alloy 308 L-FD characterised by extremely convenient, nearly spatter-free welding behaviour: base metals: steels with material no. 1.4301, 1.4306, 1.4311, perhaps also material no. 1.4541, 1.4343, 1,4550 |
| NT® - Alloy 316 L - FD DIN 8556: 19 12 3 L Material No.: 1.4430 AWS: E 316 LTO-4 EN 12073: T 19 12 3 L R M 3 |
C Si Mn Cr Ni Mo |
< 0,04 0,6 1,6 19,5 12,5 2,6 |
Austenitic CrNiMo flux-cored wire in ELC quality with rutile-acidic slag characteristic; NT® alloy 316 L-FD well suited for MAG welding of unstabilised and stabilised-corrosion resistant 19/12/3 CrNiMo steels; weld-decay-proof at operating temperatures up to 350 °C; resistant to scale formation up to about 800 °C; base metals: steels with material no. 1.4401, 1.4404, 1.4406, 1,4435, 1.4436, perhaps also material no. 1.4571, 1.4580, 1.4583 |
Forms available on delivery: wire diameter: 0.9 – 1.2 – 1.6 mm, coils as specified in EN 759, further high-alloy flux-cored wire grades available on request.