SM
SchoolM
Toggle navigation
Deutsch
English
français
polski
русский
shqip
Max Mustermann
Logout
technical parameter | Catalog-ID 000709
Bm
1
EN 10088-3 - X6CrNiMoTi17-12-2
Bm
2
EN 10088-3 - X6CrNiMoTi17-12-2
α
40 °
β
b
1.5 mm
c
2.0 mm
t
1
5.0 mm
t
2
5.0 mm
D
1
106.0 mm
D
2
106.0 mm
R
h
1
1.5 mm
h
2
1.0 mm
b
1
10.0 mm
b
2
1.0 mm
a
1
a
2
s
1
s
2
parent metal / welding consumables / Shielding gases
parent metal 1 (Bm
1
)
Material group
Steels with a specified minimum yield strength ReH <= 275 N/mm2
Steels with a specified minimum yield strength 275 N/mm2 < ReH <= 360
Normalized fine-grain steels with a specified minimum yield strength ReH > 360 N/mm2
Steels with improved atmospheric corrosion resistance whose analysis may exceed the requirements for the individual elements as indicated in group 1
Thermomechanically treated fine-grain steels and cast steels with a specified minimum yield strength ReH > 360 N/mm2
Thermomechanically treated fine-grain steels and cast steels with a specified minimum yield strength 360 N/mm2 < ReH <= 460 N/mm2
Thermomechanically treated fine-grain steels and cast steels with a specified minimum yield strength ReH > 460 N/mm2
Quenched and tempered and precipitation-hardened fine-grain steels except stainless steels with a specified minimum yield strength ReH > 360 N/mm2
Quenched and tempered fine-grain steels with a specified minimum yield strength 360 N/mm2 < ReH <= 690 N/mm2
Quenched and tempered fine-grain steels with a specified minimum yield strength ReH > 690 N/mm2
Precipitation-hardened fine-grain steels except stainless steels
Low vanadium alloyed Cr-Mo-(Ni) steels with Mo <= 0,7 % and V <= 0,1 %
Steels with Cr <= 0,3 % and Ni <= 0,7 %
Steels with Cr <= 0,7 % and Ni <= 1,5 %
Cr-Mo steels free of vanadium with C <= 0,35 %
Steels with 0,75 % <= Cr <= 1,5 % and Mo <= 0,7 %
Steels with 1,5 % < Cr <= 3,5 % and 0,7 % < Mo <= 1,2 %
Steels with 3,5 % < Cr <= 7,0 % and 0,4 % < Mo <= 0,7 %
Steels with 7,0 % < Cr <= 10,0 % and 0,7 % < Mo <= 1,2 %
High vanadium alloyed Cr-Mo-(Ni) steels
Steels with 0,3 % <= Cr <= 0,75 %, Mo <= 0,7 % and V <= 0,35 %
Steels with 0,75 % < Cr <= 3,5 %, 0,7 % < Mo <= 1,2 % and V <= 0,35 %
Steels with 3,5 % < Cr <= 7,0 %, Mo <= 0,7 % and 0,45 % <= V <= 0,55 %
Steels with 7,0 % < Cr <= 12,5 %, 0,7 % < Mo <= 1,2 % and V <= 0,35 %
Ferritic, martensitic or precipitation-hardened stainless steels with C <= 0,35 % and 10,5 % <= Cr <= 30 %
Ferritic stainless steels
Martensitic stainless steels
Precipitation-hardened stainless steels
Austenitic stainless steels, Ni <= 31 %
Austenitic stainless steels with Cr <= 19 %
Austenitic stainless steels with Cr > 19 %
Manganese austenitic stainless steels with 4 % < Mn <= 12 %
Nickel alloy steels with Ni <= 10,0 %
Nickel alloy steels with Ni <= 3,0 %
Nickel alloy steels with 3,0 % < Ni = 8,0 %
Nickel alloy steels with 8,0 % < Ni <= 10,0 %
Austenitic ferritic stainless steels (duplex)
Austenitic ferritic stainless steels with Cr <= 24 %
Austenitic ferritic stainless steels with Cr > 24 %
Steels covered by group 1 except 0,25 % < C <= 0,85 %
Steels as indicated in group 11 with 0,25 % < C <= 0,35 %
Steels as indicated in group 11 with 0,35 % < C <= 0,5 %
Steels as indicated in group 11 with 0,5 % < C <= 0,85 %
Pure aluminium with <= 1 % impurities or alloy content
Non-heat-treatable alloys
Aluminium-manganese alloys
Aluminium-magnesium alloys with Mg <= 1,5 %
Aluminium-magnesium alloys with 1,5 % < Mg <= 3,5 %
Aluminium-magnesium alloys with Mg > 3,5 %
Heat-treatable alloys
Aluminium-magnesium-silicon alloys
Aluminium-zinc-magnesium alloys
Aluminium-silicon alloys with Cu <= 1 %
Aluminium-silicon alloys with Cu <= 1 % and 5 % < Si <= 15 %
Aluminium-silicon-magnesium alloys with Cu <= 1 % 5 % < Si <= 15 % and 0,1 % < Mg <= 0,80 %
Aluminium-silicon-copper alloys with 5 % < Si <= 14 % 1 % < Cu <= 5 % and Mg <= 0,8 %
Aluminium-copper alloys with 2 % < Cu <= 6 %
Copper with up to 6 % Ag and 3 % Fe
Copper-zinc alloys
Copper-zinc alloys, binary
Copper-zinc alloys, complex
Copper-tin alloys
Copper-nickel alloys
Copper-aluminium alloys
Copper-nickel-zinc alloys
Copper alloys, low-alloyed (less than 5 % other elements) not covered by groups 31 to 36
Other copper alloys (5 % or more other elements) not covered by groups 31 to 36
Pure nickel
Nickel-copper alloys (Ni-Cu) with Ni => 45 %, Cu => 10 %
Nickel-chromium alloys(Ni-Cr-Fe-Mo) with Ni => 40 %
Nickel-molybdenum alloys (Ni-Mo) with Ni <= 45 %, Mo => 32 %
Nickel-iron-chromium alloys (Ni-Fe-Cr) with Ni => 31 %
Nickel-chromium-cobalt alloys (Ni-Cr-Co) with Ni => 45 %, Co => 10 %
Nickel-iron-chromium-copper alloys (Ni-Fe-Cr-Cu) with Ni => 45 %
Nickel-iron-cobalt alloys (Ni-Fe-Co-Cr-Mo-Cu) with 31 % <= Ni <= 45 % and Fe => 20 %
Pure titanium
Titanium with O2 < 0,20 %
Titanium with 0,20 % < O2 <= 0,25 %
Titanium with 0,25 % < O2 <= 0,35 %
Titanium with 0,35 % < O2 <= 0,40 %
Alpha alloys (Alloys covered by group 52 are: Ti-0,2Pd Ti-2,5Cu Ti-5Al-2,5Sn Ti-8Al-1Mo-1V Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-2Nb-1Ta-0,8Mo)
Alpha-beta alloys (Alloys covered by group 53 are: Ti-3Al-2,5V Ti-6Al-4V Ti-6Al-6V-2Sn Ti-7Al-4Mo)
Near-beta and beta alloys (Alloys covered by group 54 are: Ti-10V-2Fe-3Al Ti-13V-11Cr-3Al Ti-11,5Mo-6Zr-4,5Sn Ti-3Al-8V-6Cr-4Zr-4Mo)
Pure zirconium
Zirconium with 2,5 % Nb
Grey cast irons with specified tensile strength or Brinell hardness
Spheroidal-graphite cast irons with specified mechanical properties
Spheroidal-graphite cast irons, ferrite type, with specified tensile strength, 0,2 % proof stress, elongation and specified impact resistance values
Spheroidal-graphite cast irons, ferrite type, with specified tensile strength, 0,2 % proof stress and elongation or specified Brinell hardness
Spheroidal-graphite cast irons EN-GJS-500-7 and EN-GJS-450-10 (if > 20 % perlite) or specified Brinell hardness
Spheroidal-graphite cast irons, perlite type, with specified tensile strength, 0,2 % proof stress and elongation or specified Brinell hardness
Malleable cast irons
Austempered ductile cast irons
Austenitic cast irons
Cast irons excepting groups 71 to 75
Copper
Nickel
Titan
EN 10088-3 - X5CrNi18-10
EN 10088-3 - X6CrNiMoTi17-12-2
Basic material catalog
EN 10008-1 - X2CrNiMo18-15-4 ( 1.4438 )
EN 10088-3 - X6CrNiMoTi17-12-2 ( 1.4571 )
EN 10088-3 - X6CrNiTi18-10 ( 1.4541 )
EN 10088-3 - X5CrNi18-10 ( 1.4301 )
Filler metal 1
Material group
FM5
nm
S
Norm name ISO
8.1 | FM5 | S | CastoWig 45553 WS | ISO 14343-A-W 19 12 3 Nb | Castolin Europe GmbH
8.1 | FM5 | S | CastoWig 45500 WS | ISO 14343-A-W 19 12 3 L | Castolin Europe GmbH
8.1 | FM5 | S | DAIKO SF TIG 309LSi | ISO 14343-A-W 23 12 L Si | DAIKO
8.1 | FM5 | S | MT-308L | ISO 14343-A-W 19 9 L Si | MTC
Norm name AWS
Trade name
CastoWig 45553 WS
Certificate of Approval
zw_649_43.024.10 - WG 8.1.pdf
Protective gas group
ISO 14175 - I1
ISO 14174 - S
ISO 14175 - C1
ISO 14175 - I2
ISO 14175 - I3
ISO 14175 - M11
ISO 14175 - M12
ISO 14175 - M13
ISO 14175 - M14
ISO 14175 - M20
ISO 14175 - M21
ISO 14175 - M22
ISO 14175 - M23
ISO 14175 - M24
ISO 14175 - M25
ISO 14175 - M31
ISO 14175 - M32
ISO 14175 - N2
ISO 14175 - N4
ISO 14175 - N5
ISO 14175 - R1
ISO 14175 - R2
ISO 14175 - Z
l/min
Norm name ISO
DIN EN ISO 14175 - I1 - Ar (Air Liquide)
DIN EN ISO 14175 - I3 - ArHe5 Hallo (Air Liquide)
ISO 14175 I1 (Air Products)
ISO 14175 I1 (Dratec Draht-Technik)
ISO 14175 - I1 (Air Liquide)
ISO 14175 - I1 (Linde AG)
ISO 14175 - I1 (Messergroup)
ISO 14175 - I1 - Ar (Air Liquide)
ISO 14175 - I1 - Ar (PRAXAIR)
ISO 14175 - I1 - Ar (Westfalen AG)
Manufacturer's name
Argon 4.6
backing gas
ISO 14175 - N5
ISO 14174 - S
ISO 14175 - C1
ISO 14175 - I1
ISO 14175 - I2
ISO 14175 - I3
ISO 14175 - M11
ISO 14175 - M12
ISO 14175 - M13
ISO 14175 - M14
ISO 14175 - M20
ISO 14175 - M21
ISO 14175 - M22
ISO 14175 - M23
ISO 14175 - M24
ISO 14175 - M25
ISO 14175 - M31
ISO 14175 - M32
ISO 14175 - N2
ISO 14175 - N4
ISO 14175 - R1
ISO 14175 - R2
ISO 14175 - Z
l/min
Norm name ISO
ISO 14175 - N5 - NH - 10 (Air Liquide)
ISO 14175 - N5 - NH - 10 (Linde AG)
ISO 14175 - N5 - NH - 10 (Westfalen AG)
ISO 14175 - N5 - NH - 15 (Air Liquide)
ISO 14175 - N5 - NH - 15 (Linde AG)
ISO 14175 - N5 - NH - 15 (Westfalen AG)
ISO 14175 - N5 - NH - 20 (Air Liquide)
ISO 14175 - N5 - NH - 20 (Linde AG)
ISO 14175 - N5 - NH - 20 (Westfalen AG)
ISO 14175 - N5 - NH - 3 (Westfalen AG)
ISO 14175 - N5 - NH - 30 (Air Liquide)
ISO 14175 - N5 - NH - 30 (Linde AG)
ISO 14175 - N5 - NH - 30 (Westfalen AG)
ISO 14175 - N5 - NH - 5 (Air Liquide)
ISO 14175 - N5 - NH - 5 (Linde AG)
ISO 14175 - N5 - NH - 5 (Westfalen AG)
ISO 14175 - N5 - NH - 8 (Westfalen AG)
Manufacturer's name
Formiergas 70/30
parent metal 2 (Bm
2
)
Material group
Steels with a specified minimum yield strength ReH <= 275 N/mm2
Steels with a specified minimum yield strength 275 N/mm2 < ReH <= 360
Normalized fine-grain steels with a specified minimum yield strength ReH > 360 N/mm2
Steels with improved atmospheric corrosion resistance whose analysis may exceed the requirements for the individual elements as indicated in group 1
Thermomechanically treated fine-grain steels and cast steels with a specified minimum yield strength ReH > 360 N/mm2
Thermomechanically treated fine-grain steels and cast steels with a specified minimum yield strength 360 N/mm2 < ReH <= 460 N/mm2
Thermomechanically treated fine-grain steels and cast steels with a specified minimum yield strength ReH > 460 N/mm2
Quenched and tempered and precipitation-hardened fine-grain steels except stainless steels with a specified minimum yield strength ReH > 360 N/mm2
Quenched and tempered fine-grain steels with a specified minimum yield strength 360 N/mm2 < ReH <= 690 N/mm2
Quenched and tempered fine-grain steels with a specified minimum yield strength ReH > 690 N/mm2
Precipitation-hardened fine-grain steels except stainless steels
Low vanadium alloyed Cr-Mo-(Ni) steels with Mo <= 0,7 % and V <= 0,1 %
Steels with Cr <= 0,3 % and Ni <= 0,7 %
Steels with Cr <= 0,7 % and Ni <= 1,5 %
Cr-Mo steels free of vanadium with C <= 0,35 %
Steels with 0,75 % <= Cr <= 1,5 % and Mo <= 0,7 %
Steels with 1,5 % < Cr <= 3,5 % and 0,7 % < Mo <= 1,2 %
Steels with 3,5 % < Cr <= 7,0 % and 0,4 % < Mo <= 0,7 %
Steels with 7,0 % < Cr <= 10,0 % and 0,7 % < Mo <= 1,2 %
High vanadium alloyed Cr-Mo-(Ni) steels
Steels with 0,3 % <= Cr <= 0,75 %, Mo <= 0,7 % and V <= 0,35 %
Steels with 0,75 % < Cr <= 3,5 %, 0,7 % < Mo <= 1,2 % and V <= 0,35 %
Steels with 3,5 % < Cr <= 7,0 %, Mo <= 0,7 % and 0,45 % <= V <= 0,55 %
Steels with 7,0 % < Cr <= 12,5 %, 0,7 % < Mo <= 1,2 % and V <= 0,35 %
Ferritic, martensitic or precipitation-hardened stainless steels with C <= 0,35 % and 10,5 % <= Cr <= 30 %
Ferritic stainless steels
Martensitic stainless steels
Precipitation-hardened stainless steels
Austenitic stainless steels, Ni <= 31 %
Austenitic stainless steels with Cr <= 19 %
Austenitic stainless steels with Cr > 19 %
Manganese austenitic stainless steels with 4 % < Mn <= 12 %
Nickel alloy steels with Ni <= 10,0 %
Nickel alloy steels with Ni <= 3,0 %
Nickel alloy steels with 3,0 % < Ni = 8,0 %
Nickel alloy steels with 8,0 % < Ni <= 10,0 %
Austenitic ferritic stainless steels (duplex)
Austenitic ferritic stainless steels with Cr <= 24 %
Austenitic ferritic stainless steels with Cr > 24 %
Steels covered by group 1 except 0,25 % < C <= 0,85 %
Steels as indicated in group 11 with 0,25 % < C <= 0,35 %
Steels as indicated in group 11 with 0,35 % < C <= 0,5 %
Steels as indicated in group 11 with 0,5 % < C <= 0,85 %
Pure aluminium with <= 1 % impurities or alloy content
Non-heat-treatable alloys
Aluminium-manganese alloys
Aluminium-magnesium alloys with Mg <= 1,5 %
Aluminium-magnesium alloys with 1,5 % < Mg <= 3,5 %
Aluminium-magnesium alloys with Mg > 3,5 %
Heat-treatable alloys
Aluminium-magnesium-silicon alloys
Aluminium-zinc-magnesium alloys
Aluminium-silicon alloys with Cu <= 1 %
Aluminium-silicon alloys with Cu <= 1 % and 5 % < Si <= 15 %
Aluminium-silicon-magnesium alloys with Cu <= 1 % 5 % < Si <= 15 % and 0,1 % < Mg <= 0,80 %
Aluminium-silicon-copper alloys with 5 % < Si <= 14 % 1 % < Cu <= 5 % and Mg <= 0,8 %
Aluminium-copper alloys with 2 % < Cu <= 6 %
Copper with up to 6 % Ag and 3 % Fe
Copper-zinc alloys
Copper-zinc alloys, binary
Copper-zinc alloys, complex
Copper-tin alloys
Copper-nickel alloys
Copper-aluminium alloys
Copper-nickel-zinc alloys
Copper alloys, low-alloyed (less than 5 % other elements) not covered by groups 31 to 36
Other copper alloys (5 % or more other elements) not covered by groups 31 to 36
Pure nickel
Nickel-copper alloys (Ni-Cu) with Ni => 45 %, Cu => 10 %
Nickel-chromium alloys(Ni-Cr-Fe-Mo) with Ni => 40 %
Nickel-molybdenum alloys (Ni-Mo) with Ni <= 45 %, Mo => 32 %
Nickel-iron-chromium alloys (Ni-Fe-Cr) with Ni => 31 %
Nickel-chromium-cobalt alloys (Ni-Cr-Co) with Ni => 45 %, Co => 10 %
Nickel-iron-chromium-copper alloys (Ni-Fe-Cr-Cu) with Ni => 45 %
Nickel-iron-cobalt alloys (Ni-Fe-Co-Cr-Mo-Cu) with 31 % <= Ni <= 45 % and Fe => 20 %
Pure titanium
Titanium with O2 < 0,20 %
Titanium with 0,20 % < O2 <= 0,25 %
Titanium with 0,25 % < O2 <= 0,35 %
Titanium with 0,35 % < O2 <= 0,40 %
Alpha alloys (Alloys covered by group 52 are: Ti-0,2Pd Ti-2,5Cu Ti-5Al-2,5Sn Ti-8Al-1Mo-1V Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-2Nb-1Ta-0,8Mo)
Alpha-beta alloys (Alloys covered by group 53 are: Ti-3Al-2,5V Ti-6Al-4V Ti-6Al-6V-2Sn Ti-7Al-4Mo)
Near-beta and beta alloys (Alloys covered by group 54 are: Ti-10V-2Fe-3Al Ti-13V-11Cr-3Al Ti-11,5Mo-6Zr-4,5Sn Ti-3Al-8V-6Cr-4Zr-4Mo)
Pure zirconium
Zirconium with 2,5 % Nb
Grey cast irons with specified tensile strength or Brinell hardness
Spheroidal-graphite cast irons with specified mechanical properties
Spheroidal-graphite cast irons, ferrite type, with specified tensile strength, 0,2 % proof stress, elongation and specified impact resistance values
Spheroidal-graphite cast irons, ferrite type, with specified tensile strength, 0,2 % proof stress and elongation or specified Brinell hardness
Spheroidal-graphite cast irons EN-GJS-500-7 and EN-GJS-450-10 (if > 20 % perlite) or specified Brinell hardness
Spheroidal-graphite cast irons, perlite type, with specified tensile strength, 0,2 % proof stress and elongation or specified Brinell hardness
Malleable cast irons
Austempered ductile cast irons
Austenitic cast irons
Cast irons excepting groups 71 to 75
Copper
Nickel
Titan
EN 10088-3 - X5CrNi18-10
EN 10088-3 - X6CrNiMoTi17-12-2
Basic material catalog
EN 10008-1 - X2CrNiMo18-15-4 ( 1.4438 )
EN 10088-3 - X6CrNiMoTi17-12-2 ( 1.4571 )
EN 10088-3 - X6CrNiTi18-10 ( 1.4541 )
EN 10088-3 - X5CrNi18-10 ( 1.4301 )
Filler metal 2
Material group
S
Norm name ISO
8.1 | FM5 | S | CARBO S-4316 Si | ISO 14343-A-G 19 9 L Si | Carbo Weld
8.1 | FM5 | S | CARBO S-4370 Si | ISO 14343-A-G18 8 Mn | Carbo Weld
8.1 | FM5 | S | CastoMag 45554 S | ISO 14343-A-G 18 8 Mn | Castolin Europe GmbH
8.1 | FM5 | RB | CastInox Arc A-Mo 90009 N | ISO 3581-A-E 19 12 3 L R 32 | Castolin Europe GmbH
8.1 | FM5 | RB | Castolin CP 33500 | ISO 3581-A-E 19 12 3 L R 12 | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode CP 33700 | ISO 3581-A - E Z 21 12 2 L R 1 2 | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode E309L-17 | ISO 3581-A-E 23 12 L R 32 | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode E308L-17 | ISO 3581-A-E 19 9 L R 32 | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode E307-17 | ISO 3581-A-E 18 9 MnMo R 32 | Castolin Europe GmbH
8.1 | FM5 | R | Castolin CP 33516 | ISO 3581-A - E 19 12 3 Nb R 3 2 | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode E309L-17 | ISO 3581-A-E 23 12 L R 32 | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode E308L-17 | ISO 3581-A-E 19 9 L R 32 | Castolin Europe GmbH
8.1 | FM5 | S | CastoWig 45500 WS | ISO 14343-A-W 19 12 3 L | Castolin Europe GmbH
8.1 | FM5 | S | CastoWig 45553 WS | ISO 14343-A-W 19 12 3 Nb | Castolin Europe GmbH
8.1 | FM5 | R | EutecTrode E347-17 | EN 1600-E 19 9 Nb R 32 | Castolin Europe GmbH
8.1 | FM5 | S | DAIKO SF TIG 309LSi | ISO 14343-A-W 23 12 L Si | DAIKO
8.1 | FM5 | S | Weld M 308LSi | ISO 14343-A-W 19 9 LSi | ESAB AB
8.1 | FM5 | S | Weld M 316LSi | ISO 14343-A-W 19 12 3 LSi | ESAB AB
8.1 | FM5 | S | Weld M 309LSi | ISO 14343-A-W 23 12 L Si | ESAB AB
8.1 | FM5 | S | Weld M 1.4370 | ISO 14343-A-G 18 8 Mn | ESAB AB
8.1 | FM5 | S | OK Autrod 309L Si | ISO 14343-A-G 23 12 L Si | ESAB AB
8.1 | FM5 | S | OK Autrod 318Si | ISO 14343-A-G 19 12 3 Nb Si | ESAB AB
8.1 | FM5 | S | OK Autrod 308L Si | ISO 14343-A-G 19 9 L Si | ESAB AB
8.1 | FM5 | S | OK Autrod 308L Si | ISO 14343-A-G 19 9 L Si | ESAB AB
8.1 | FM5 | S | OK Autrod 347Si | ISO 14343-A-G 19 9 Nb Si | ESAB AB
8.1 | FM5 | S | OK Autrod 316L Si | ISO 14343-A-G 19 12 3 L Si | ESAB AB
8.1 | FM5 | S | OK Autrod 16.95 | ISO 14343-A-G 18 8 Mn | ESAB AB
8.1 | FM5 | S | SW 308 LSi | ISO 14343-A-G 19 9 L Si | EWM AG
8.1 | FM5 | S | SW 316 LSi | ISO 14343-A-G 19 12 3 L Si | EWM AG
8.1 | FM5 | S | SW 2209 Duplex | ISO 14343-A-G 22 9 3 N L | EWM AG
8.1 | FM5 | S | SW 307 Si | ISO 14343-A-G 18 8 Mn | EWM AG
8.1 | FM5 | S | SW 318 Si | ISO 14343-A-G 19 12 3 Nb Si | EWM AG
8.1 | FM5 | B | BASINOX 307 | ISO 3581-A-E 18 8 Mn B 2 2 (1.4370) | Lincoln Electric Europe B.V.
8.1 | FM5 | S | MT-308L | ISO 14343-A-W 19 9 L Si | MTC
8.1 | FM5 | S | Thermanit JE-308L-Si | ISO 14343-A-G 19 9 L Si | voestalpine Böhler
8.2 | FM5 | R | EutecTrode E310-17 | ISO 3581-A-E 25 20 R 32 | Castolin Europe GmbH
8.2 | FM5 | RB | Castolin EC 33300 | ISO 3581-A-E 25 20 R 12 | Castolin Europe GmbH
Norm name AWS
Trade name
Certificate of Approval
Protective gas group
ISO 14174 - S
ISO 14175 - C1
ISO 14175 - I1
ISO 14175 - I2
ISO 14175 - I3
ISO 14175 - M11
ISO 14175 - M12
ISO 14175 - M13
ISO 14175 - M14
ISO 14175 - M20
ISO 14175 - M21
ISO 14175 - M22
ISO 14175 - M23
ISO 14175 - M24
ISO 14175 - M25
ISO 14175 - M31
ISO 14175 - M32
ISO 14175 - N2
ISO 14175 - N4
ISO 14175 - N5
ISO 14175 - R1
ISO 14175 - R2
ISO 14175 - Z
l/min
Norm name ISO
Manufacturer's name