Improbond GmbH – Laser Welding Wire


02_4009

Property Value
Material no.
 1.4009
Tensile elastic limit 380 N/mm²
Tensile strength 550 N/mm²
Expansion 15 %
Hardness 150 HB

Martensitic welding wire for the laser welding of similar alloys. Good wear resistance at higher temperature up to 450 °C.

For base materials


Symbol Element Value
C Carbon                  0,10 %
Si Silicium                  0,50 %
Mn Manganese                  0,60 %
Cr Chrome 11,50 – 13,50 %
Mo Molybdenum                 0,60 %
Fe Iron Rest


02_4115

Property Value
Material no.
 1.4115
Tensile elastic limit 500 N/mm²
Tensile strength 700 N/mm²
Expansion 15 %
Soft-annealed 200 HB
Hardened 42 – 47 HRc

Martensitic welding wire for the laser welding of similar alloys. Good wear resistance at higher temperature up to 450°C. Hardneable and annelable.

For base materials


Symbol Element Value
C Carbon   0,20 %
Si Silicium   0,60 %
Mn Manganese   0,40 %
Cr Chrome 17,50 %
Ni Nickel   0,30 %
Mo Molybdenum   1,10 %
Fe Iron Rest


02_4122

Property Value
Material no.
 1.4122
Tensile elastic limit 550 N/mm²
Tensile strength 750 N/mm²
Expansion 12 %
Soft-annealed 230 HB
Hardened 45 HRc

Martensitic welding wire for the laser welding of similar alloys. Good wear resistance at higher temperature up to 450°C. Hardneable and annelable.

For base materials


Symbol Element Value
C Carbon   0,40 %
Si Silicium   0,50 %
Mn Manganese   0,45 %
Cr Chrome 16,50 %
Ni Nickel   0,50 %
Mo Molybdenum   1,10 %
Fe Iron Rest


02_4316

Property Value
Material no.
 1.4316
Tensile elastic limit 390 N/mm²
Tensile strength 590 N/mm²
Expansion 35 %

Laser welding wire of chrome-nickel-steel with a very slow carbon content for the laser welding of non-rusting and tough at sub-zero temperatured steels. Immersioncorrosion (wet corrosion up to 350°C) and tough at sub-zero temperature up to -196°C.

For base materials


Symbol Element Value
C Carbon   0,02 %
Si Silicium   0,85 %
Mn Manganese   1,75 %
Cr Chrome 19,00 %
Ni Nickel   9,50 %
Fe Iron Rest



02_4337

Property Value
Material no.
 1.4337
Tensile elastic limit 560 N/mm²
Tensile strength 740 N/mm²
Expansion 25 %
Hardness 240 HB

For the laser welding of high elastic, low alloyed and heat resistant or non-rusting steels. Suitable for joint weldings and deckings of dissimilar materials. Non-rusting (wet corrosion up to 300°C) austenitic/ferritic welding wire with warm crack resistance. Good ductility at a high tensile elastic limit.

For base materials


Symbol Element Value
C Carbon   0,12 %
Si Silicium   0,40 %
Mn Manganese   1,80 %
Cr Chrome 30,00 %
Ni Nickel   9,00 %
Fe Iron Rest


02_4430

Property Value
Material no.
 1.4430
Tensile elastic limit 430 N/mm²
Tensile strength 650 N/mm²
Expansion 34 %
Hardness 150 HB

For the laser welding of non-rusting austenitic Cr-Ni-Mo-steels with a very low C-content. Immersioncorrosion (wet corrosion up to 400°C) and tough at sub-zero temperature up to -196°C.

For base materials


Symbol Element Value
C Carbon   0,02 %
Si Silicium   0,85 %
Mn Manganese   1,80 %
Cr Chrome 18,50 %
Ni Nickel 12,50 %
Mo Molybdenum   2,60 %
Fe Iron Rest


02_4455

Property Value
Material no.
 1.4455
Tensile elastic limit 400 N/mm²
Tensile strength 600 N/mm²
Expansion 30 %
Magnetic permeability
 ~ 1.01 G/0e

For the laser welding on similar full austenitic Cr-Ni-Mo-(N)-steels and similar steels and cast steels. Non-rusted, non magnetisable and corrosion resistant.

For base materials


Symbol Element Value
C Carbon   0,02 %
Si Silicium   0,50 %
Mn Manganese   7,30 %
Cr Chrome 20,00 %
Ni Nickel 16,00 %
Mo Molybdenum   2,70 %
N
 Nitrogen
   0,15 %
Fe Iron Rest


02_4462

Property
 Value
Material no.
 1.4462
Tensile elastic limit
           450 N/mm²
Tensile strength
 650 - 800 N/mm²
Expansion 25 %

An austenitic-ferritic duplex steel, which is characterized by its good corrosion resistence and high strength and tensile elastic limit.

For base materials


Symbol Element Value
C Carbon
   0,02 %
Si Silicium   1,00 %
Mn Manganese   2,00 %
Cr Chrome 22,00 %
Ni Nickel   5,50 %
Mo
 Molybdenum    3,00 %
N
 Nitrogen
    0,16 %
Fe Iron
 Rest


02_4501

Property Value
Material no.
 1.4501
Tensile elastic limit 600 N/mm²
Tensile strength 750 N/mm²
Expansion 25 %

For the laser welding of offshore applications. High resistance to pitting and stress-corrosioin cracking seawater. High resistant to phosphoric acid. SUPERDUPLEX.

For base materials


Symbol Element Value
C Carbon   0,02 %
Si Silicium   0,50 %
Mn Manganese   0,80 %
Cr Chrome   25,00 %
Ni Nickel   9,00 %
Mo Molybdenum   3,70 %
N
 Nitrogen
   0,20 %
Cu
 Copper
   0,10 %
Fe Iron Rest


02_4551

Property Value
Material no.
 1.4551
Tensile elastic limit 490 N/mm²
Tensile strength 680 N/mm²
Expansion 32 %

For the laser welding of stabilised and non-stabilised non-rusting Cr-Ni-steels. Immersion-corrosion (wet corrosion up to 400°C) and tough at sub-zero temperature up to -120°C.

For base materials


Symbol Element Value
C Carbon   0,06 %
Si Silicium   0,85 %
Mn Manganese   1,30 %
Cr Chrome 19,50 %
Ni Nickel   9,50 %
Nb
 Niobium
     12xC
Fe Iron Rest


02_4576

Property Value
Material no.
 1.4576
Tensile elastic limit 450 N/mm²
Tensile strength 580 N/mm²
Expansion 30 %

For the laser welding of similar stabilised and non-stabilised austenitic Cr-Ni-Mo-steels. Niobium stabilised, non-rusting and corrosion resistant welding wire. Immersioncorrosion (wet corrosion up to 400°C) and tough at sub-zero temperature up to -120°C.

For base materials


Symbol Element Value
C Carbon   0,06 %
Si Silicium   0,85 %
Mn Manganese   1,50 %
Cr Chrome 19,00 %
Ni Nickel 12,00 %
Mo Molybdenum   2,60 %
Nb
 Niobium
      12xC
Fe Iron Rest


02_4937

Property Value
Material no.
 1.4937
Tensile strength
 700 N/mm²
Expansion
 15 %
Hardness
 45 – 50 HRc

Martensitic welding wire fpr the laser welding of similar alloys. Suitable in the long-term range for temperatures uo tp 650°C degrees. Further appclications in the turbine and boiler construction as well as in the chemical industry.

For base materials


Symbol Element Value
C Carbon                  0,20 %
Si Silicium                  0,30 %
Mn Manganese                  0,60 %
Mo
 Molybdenum                  1,00 %
Ni Nickel                  0,80 %
W
 Tungsten                  0,50 %
V
 Vanadium                  0,30 %
Cr
 Chrom
                11,00 %
Fe Iron Rest


02_17-4PH

Property Value
Material no.
 17-4PH
Hardness
 40 – 44 HRc

Martensitic precipitation hardenable chromium-nickel-copper steel possessing high strength and toughness. Further strength increments can be obtained by cold forming, followed by a precipitation hardening treatment.

For base materials


Symbol Element Value
C Carbon                  0,07 %
MnManganese                 1,00 %
PPhospor
                 0,04 %
SiSilicium                 1,00 %
Cr Chrome 15,00 – 17,50 %
Ni Nickel      3,00 – 5,00 %
Cu
Copper
     3,00 – 5,00 %
Nb
 Niobium
                  0,30 %
Fe Iron Rest


02_316LSS

Property Value
Material no.
 316LSS
Tensile elastic limit 430 N/mm²
Tensile strength 650 N/mm²
Expansion 90 %

For the laser welding of non-rusting austenitic Cr-Ni-Mo-steels with a very low C-content.

For base materials


Symbol Element Value
C Carbon                  0,02 %
Si Silicium                  0,85 %
Mn Manganese                  1,80 %
Cr Chrome 16,00 – 18,00 %
Ni Nickel  10,00 – 14,00 %
Mo
 Molybdenum
                  2,60 %
Fe Iron Rest


02_420stst

Property Value
Material no.
 420stst
Tensile elastic limit 850 N/mm²
Expansion 12 %
Hardness
45 – 52 HRc

Martensitic welding wire for the laser welding of similar alloys. Good wear resistance at higher temperature up to 450°C. Recommendation: pre-heating up to 150°C

For base materials


Symbol Element Value
C Carbon                  0,35 %
Si Silicium                  1,00 %
Mn Manganese                  1,00 %
P
Phosphor
                 0,04 %
S
Sulfur
                 0,03 %
Cr Chrome 12,00 – 14,00 %
Fe Iron Rest