Electrodes for corrosion resistant CrNi, CrNiMo and CrNiMoCu steels
Product |
Standard |
Weld Metal Analysis |
Applications |
Mechanical Properties |
4316 Ti | AWS: E 308L – 16 DIN 8556: E 19 9 L R 23EN 1600: E 19 9 L R 12 EN ISO 3581: E 19.9 L R 21 Recovery: 100%Current: = (+) / ~ |
C: max. 0.03 Cr: 18,0 – 20,0Ni: 9,0 – 11,0 |
In principle, the electrode is suitable for joining and surfacing on unstabilized or stabilized chemically resistant CrNi-steels of similar composition. Also for non-corrosive Cr-steels.With proper use the weld deposit will stand up to temperatures upto 350 ºC.The weld deposit can take a high polish. Suitable for following base materials (AISI): 202, 302, 304, 304L, 305, 321, 347 |
T: 550 – 600 N/mm² Y: 320 – 390 N/mm²E(1=5d): 33 – 37 %I: 60 – 70 Joule |
4430 Ti | AWS: E 316L – 16 DIN 8556:E 19 12 3 L R 23EN 1600:E 19 12 3 L R 12 EN ISO 3581: E 19.12.3 L R 21 Recovery: 100%Current: = (+) / ~ |
C: max. 0.03 Cr: 18,0 – 20,0Ni: 11,0 – 13,0Mo: 2,5 – 3.0 |
This rutile-basic coated electrode is suitable for joining and surfacing on unstabilized or stabilized chemically resistant CrNiMo-steels of similar composition . Also for corrosion-resistant Cr-steels.With proper use the weld deposit will stand up to temperatures up to 350 ºC. Suitable for following base materials (AISI): 316, 316L, 316Ti, 316Cb, D316, 317L |
T: 550 – 620 N/mm²Y: 370 – 420 N/mm²E(1=5d): 35 – 37 %I: 70 – 75 Joule |
4430 Ti Fall | AWS: E 316L – 16 DIN 8556:E 19 12 3 L R 23EN 1600:E 19 12 3 L R 11 EN ISO 3581:E 19.12.3 L R 11 Recovery: 100%Current: = (+) / ~ |
C: max. 0,03 Cr: 18,0 – 20,0Ni: 11,0 – 13,0Mo: 2,5 – 3,0 |
This rutile-basic coated electrode has been especially developed for vertical down welding is well suited for joint weldings on corrison-resistant CrNi- and CrNiMo- steels. Due to its very low C-content it can stand up to temperatures up to 350 ºC.The weld deposit can take a high polish.Suitable for base materials (AISI): 202, 302, 304, 304 L, 305, 321, 347, 316, 316 L, 316 Ti, 316 Cb, D 316, 317 |
T: 550 – 620 N/mm²Y: 370 – 420 N/mm² E(1=5d): 35 – 37 %I: 70 – 75 Joule |
4462 Ti | AWS: E 2209 – 16DIN 8556:E 22 9 3 L R 23EN 1600:E 22 9 3 L R 32 EN ISO 3581:E 22.9.3 L R 23 Recovery: 110%Current: = (+) / ~ |
C: max. 0,03Mn: 1,5 – 2,0Cr: 21,0 – 23,0Ni: 9,0 – 10,0Mo: 2,8 – 3,3 | Rutile-basic coated electrode with an austenitic-ferric structure (duplex). Resistant to intergranular corrosion and wet corrosion up to 350 ºC. Suitable for joining and surfacing of steels of similar composition.Also usable for joining between unalloyed or low alloyed steels to stainless steel.Because of the austenitic-ferritic structure with high mechanical properties and high corrosion resistance the electrode is highly recommended for industries like waste combustion equipment, gas desulphurisation plants, offshore. Suitable for following base materials(AISI): A 790 |
T: 670 – 690 N/mm²Y: 510 – 520 N/mm²E(1=5d): 23 – 25 %I: 48 – 50 Joule |
4539 Ti | AWS: E 385 L – 16DIN 8556: E 20 25 5 Cu L R 23EN 1600: E 20 25 5 Cu L R 32 EN ISO 3581: E 20.25.5 Cu LR 23 Recovery: 110%Current: = (+) / ~ |
C: max.0,03Mn: 1,2 – 1,8Cr: 19,0 – 21,0Ni: 24,0 – 26,0Mo: 4,0 – 5,0 Cu: 1,2 – 1,8 |
Rutile-basic coated electrode for joining and surfacing on base materials of similar kind. Remarkable feature is its resistance to phosphoric acids, the combination of Mo and Cu on application in sulfuric acids provides very low corrosion degradation.The contents of 4,5% Mo and about 20% Cr deliver good resistance of the weld deposit to stress corrosion cracks and pitting corrosion in chloride media.Suitable for following base materials(AISI): UNS N 08904 |
T: 630 – 640 N/mm²Y: 440 – 450 N/mm²E(1=5d): 32 – 35 %I: 85 – 90 Joule |