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Improbond GmbH is your contact for laser welding wire

complete catalog

Improbond GmbH – Laser Welding Wire

Improbond GmbH is your trusted partner for laser welding wires.

The laser welding for surface treatment, joining, and repair has become a future-oriented and established method in industry. The laser welding wire, as a filler material, plays a crucial role in the different applications.
Short lead times of the valuable and large assortment of the laser welding wires are the key for a trustfull collaboration.

Basic information

Colour explanation of rods’ packaging

Ø 0,2 mm Ø 0,3 mm Ø 0,4 mm Ø 0,5 mm Ø 0,6 mm Ø 0,7 mm Ø 0,8 mm

Packaging units

Rods	Bobbins
1 unit of 100 g	K 80, K 125, K 160, MA 125, SH 253 from 100 g

Marked wires

Process safety
Improbond GmbH sets new standards for eliminating the risk of confusing laser welding wires by using an engraved material number. Our products meet the standard for controlled applications and the UDI guideline (Unique Device Identification) according to IMDRF specifications for medical products.

Chemical elements

H – Hydrogen

Be – Beryllium

C – Carbon

N – Nitrogen

O – Oxygen

Mg – Magnesium

Al – Aluminium

Si – Silicium

P – Phosphor

Ti – Titanium

V – Vanadium

Cr – Chrome

Mn – Manganese

Fe – Iron

Co – Cobalt

Ni – Nickel

Cu – Copper

Zn – Zinc

Nb – Niobium

Mo – Molybdenum

Ag – Silver

Sn – Tin

W – Tungsten

Pb – Lead

Improbond GmbH – Laser Welding Wire

01_9090

Property	Value
Material no.	Mn3Ni1CrMo
Tensile elastic limit	670 – 760 N/mm²
Tensile strength	730 – 820 N/mm²
Expansion	20 – 25 %

For the laser welding of coated close-grained steels, like St52 - St70, StE420 - StE690 by improved corrosion resistance and hardness. The weld can be eroded, polished, chromplated, nitrated, annealed and hardened.

For base materials

1.2713
1.2714
1.2764
1.2767
St52 - St70
StE420 - StE690

Symbol	Element	Value
C	Carbon	0,10 %
Si	Silicium	0,60 %
Mn	Manganese	1,60 %
Cr	Chrome	0,35 %
Ni	Nickel	1,40 %
Mo	Molybdenum	0,30 %
V	Vanadium	0,10 %
Fe	Iron	Rest

01_9100

Property	Value
Material no.	1.5424
Tensile elastic limit	490 – 520 N/mm²
Tensile strength	560 – 650 N/mm²
Expansion	23 – 27 %

For the laser welding of the materials 1.2311, 1.2312, 1.2162, 1.2738 and for low-alloyed steels, like StE 355, 17Mn4, 15Mo3. The weld can be eroded, structured, polished, chromplated, etched, nitrated and annealed.

For base materials

1.2162
1.2311
1.2312
1.2738
StE 355
15Mo3
17Mn4

Symbol	Element	Value
C	Carbon	0,10 %
Si	Silicium	0,60 %
Mn	Manganese	1,10 %
Mo	Molybdenum	0,50 %
Fe	Iron	Rest

01_9110 | 01_9190

copper-coated blank

Property	Value
Material no.	1.2367.02
Hardness	38 – 42 HRc

For the laser welding of hot working tools, which are subjected to impact compression and abrasion at elevated temperatures. The weld can be polished, chromplated, nitrated, heat treated and CVD coated. Recommendation 01_9190: Using für mirror finish.

For base materials

1.2343
1.2344
1.2606
1.2764
1.2767

Symbol	Element	Value
C	Carbon	0,10 %
Si	Silicium	0,40 %
Mn	Manganese	0,60 %
Cr	Chrome	6,50 %
Mo	Molybdenum	3,30 %
Fe	Iron	Rest

01_9120

Property	Value
Material no.	1.2567
Hardness	~ 45 HRc
Soft annealed	780°C ~ 230 HB
Hardened	1080°C/Öl ~ 52 HRc
Tempered	600°C ~ 48 HRc

For the laser welding on warm-working tools made from low-alloyed and non-alloyed steels at a high temperature strength and tempering resistance.

For base materials

1.2343
1.2344
1.2606
1.2764
1.2767
A 2
H 12
H 13
L 6
SKD 61
SKD 12
NAK 80

Symbol	Element	Value
C	Carbon	0,30 %
Si	Silicium	0,30 %
Mn	Manganese	0,30 %
Cr	Chrome	2,30 %
W	Tungsten	4,50 %
V	Vanadium	0,50 %
Fe	Iron	Rest

01_9130 | 01_9160

coper coated blank

Property	Value
Material no.	1.2367.03
Hardness	42 – 46 HRc
Soft annealed	780°C ~ 230 HB
Hardened	1030°C/Öl 48 HRc
Tempered	600°C 45 HRc

Often used laser welding wire for repairing and changing at the contour with universal characteristics, also at unknown alloys. Free of cracks and incomplete fusion by multilayer weldings. Tough welding material, good corrosion resistance, high wear resistance and toughness, for highly stressed hot working tools, which are subjected to high thermal and abrasive loads. The weld can be polished, heat treated, nitrated, chromplated, and CVD coated. Recommendation 01_9160: Using für mirror finish.

For base materials

1.2343
1.2344
1.2606
1.2764
1.2767
H 12
H 13
L 6
SKD 61
NAK 80

Symbol	Element	Value
C	Carbon	0,25 %
Si	Silicium	0,60 %
Mn	Manganese	0,70 %
Cr	Chrome	5,00 %
Mo	Molybdenum	4,00 %
Ti	Titanium	0,60 %
Fe	Iron	Rest

01_9150

Property	Value
Material no.	1.7339
Tensile elastic limit	> 480 N/mm²
Tensile strength	> 560 N/mm²
Expansion	22 – 26 %

For the laser welding of mould cavities made from tempered materials 1.2311, 1.2312, 1.2162, 1.2738, furthermore of highly heat resisting steels, like 13CrMo 4-5, 25CrMo4, 42CrMo4. The weld can be eroded, structured, polished, chromplated, etched, nitrated and annealed. Recommendation: contact your surface structure partner.

For base materials

1.2162
1.2311
1.2312
1.2738
1.7218
1.7225
1.7335
P 20

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

01_9200 | 01_9210

copper coated blank

Property	Value
Material no.	1.2343.07
Hardness	53 – 58 HRc
Soft annealed	820°C ~ 235 HB
Hardened	1050°C/Öl 58 HRc
Tempered	600 °C 53 HRc

Laser welding wire used for highly wear resistant buildups on machine parts and tools subject to heavy abrasion and compression combined with moderate impact at elevated temperatures. Low wear when using fiberglass reenforced plastics workable by grinding with tungsten carbide tools. By multilayer welding decking with 01_9650 or 03_9240 recommended. The weld is suitable for hardening, nitrifying, etching, polishing and chroming.
Recommendation 01_9210: Using für mirror finish.

For base materials

1.2082
1.2083
1.2162
1.2311
1.2312
1.2343
1.2367
1.2738
1.2842
P 20
H 13

Symbol	Element	Value
C	Carbon	0,35 %
Si	Silicium	0,30 %
Mn	Manganese	1,20 %
Cr	Chrome	7,00 %
Mo	Molybdenum	2,00 %
Ti	Titanium	0,30 %
Fe	Iron	Rest

01_9300

Property	Value
Material no.	1.4718
Hardness	54 – 60 HRc
Soft annealed	800°C ~ 250 HB
Hardened	1000°C/Öl 62 HRc

For the laser welding of press-, stamping- and cutting tools. The hard and tough weld deposit is very tough and has an excellent edge retention.

For base materials

1.2080
1.2363
1.2379
1.2436
1.2601
D 2
SKD 11

Symbol	Element	Value
C	Carbon	0,50 %
Si	Silicium	3,00 %
Mn	Manganese	0,50 %
Cr	Chrome	9,50 %
Fe	Iron	Rest

01_9310

Property	Value
Material no.	1.2606
Hardness	55 – 58 HRc

Laser welding wire with good edge wear reistance, high toughness and low tendency to hot cracks. Very suitable for the laser welding of components that are subjects to high impact and abrasion stress. The weld is suitable for mechanically grinding, polishing, conditionally chroming and hardering. Not for etching.

For base materials

1.2344
1.2379
1.2767

Symbol	Element	Value
C	Carbon	0,35 %
Si	Silicium	1,10 %
Mn	Manganese	0,40 %
Cr	Chrome	5,50 %
Mo	Molybdenum	1,30 %
V	Vanadium	0,25 %
W	Tungsten	1,30 %
Fe	Iron	Rest

01_9350

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

For the laser welding of similar alloys. The martensitic weld deposit is used for wear-resistant cladding on hot working and high-tensile steels. Good wear resistance at higher temperature up to 450°C. Hardenable and annealable.

For base materials

1.2083
1.4021
1.4034
1.4122

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

01_9380

Property	Value
Material no.	2.1211
Tensile elastic limit	80 N/mm²
Tensile strength	200 N/mm²
Expansion	20 %
Hardness	60 HB

For the laser welding of copper- and ampcoloy alloys, furthermore for the repairing of spark eroding electrodes. Ductile weld, close-grained structure and high electrical conductivity. The usable hardness is increased by cold storing.

For base materials

pure copper
ampcoloy alloys

Symbol	Element	Value
Mn	Manganese	0,20 %
Ni	Nickel	‹ 0,30 %
Ag	Silver	1,00 %
Cu	Copper	Rest

01_9450

Property	Value
Material no.	1.2311
Hardness	45 – 52 HRc

Laser welding wire with good polishing, nitriding, etching and graining properties, if an appropriate hardness is reqired.

For base materials

1.2311
1.2312
1.2343
1.2344
1.2738

Symbol	Element	Value
C	Carbon	0,40 %
Mn	Manganese	0,80 %
Si	Silicium	0,40 %
Cr	Chrome	1,75 %
Mo	Molybdenum	0,40 %
Fe	Iron	Rest

01_9500

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. Microstructure: austenite with part of ferrite. Immersioncorrosion (wet corrosion up to 400°C) and tough at sub-zero temperature up to -120°C.

For base materials

1.4301
1.4306
1.4401
1.4404
1.4541
1.4550
1.4552
1.4571
1.4580
1.4583

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	12 x C
Fe	Iron	Rest

01_9520

Property	Value
Material no.	1.4332
Tensile elastic limit	400 N/mm²
Tensile strength	600 N/mm²
Expansion	30 %

For the laser welding of heat resistant and non scaling austenitic alloys up to temperature of 1.000°C. Microstructure: austenite with part of ferrite. Non-rusting (wet corrosion up to 350°C).

For base materials

1.4710
1.4825
1.4828
1.4878
mixed bonds with ferritic steels

Symbol	Element	Value
C	Carbon	0,02 %
Si	Silicium	0,85 %
Mn	Manganese	1,80 %
Cr	Chrome	24,50 %
Ni	Nickel	13,50 %
Fe	Iron	Rest

01_9600

Property	Value
Material no.	1.3348
Hardness	57 – 62 HRc

For the laser welding of liable to wear alloys, of high speed steel (HSS), furthermore suitable for hard facing, tool parts and edges vulnerable to wear. Recommendation: pre-heating up to 50°C under tempering temperature of the base material.

For base materials

1.3318
1.3343
1.3344
1.3346
high speed steel

Symbol	Element	Value
C	Carbon	1,00 %
Si	Silicium	0,30 %
Mn	Manganese	0,30 %
Cr	Chrome	4,00 %
W	Tungsten	1,80 %
Mo	Molybdenum	8,30 %
V	Vanadium	1,90 %
Fe	Iron	Rest

01_9650

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

mixed bonds with erritic steels
deckings

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

01_9720

Property	Value
Material no.	1.6356
Tensile elastic limit	880 N/mm²
Tensile strength	980 N/mm²
Tensile elastic limit (after WR)	1.620 N/mm²
Tensile strength (after WR)	1.860 N/mm²
Hardness	32 – 35 HRc
Hardness (after WR)	50 – 54 HRc

Co-alloyed welding wire for the laser welding of highly stressed hot and cold working tools. The weld deposit is, an as-welded condition,machine workable. After warm removal: optimized warm abrasion resistance and alternating temperature resistance.

For base materials

1.2709
tools at higher loadings

Symbol	Element	Value
C	Carbon	0,005 %
Ni	Nickel	18,00 %
Mo	Molybdenum	4,00 %
Co	Cobalt	12,00 %
Ti	Titanium	1,60 %
Fe	Iron	Rest

01_9800

Property	Value
Material no.	2.1367
Tensile elastic limit	400 N/mm²
Tensile strength	650 N/mm²
Expansion	25 %
Hardness	220 HB

For the laser welding on press tools to avoid die marks. High manganiferous, sea water resistant multicomponent-aluminium bronze for build-up weldings of mould inserts from ampco bronzes and ampcoloy alloys. Cavitations resistant and good flow properties.

For base materials

Al-bronzes
ampcoloy alloys
cast iron

Symbol	Element	Value
Mn	Manganese	13,00 %
Ni	Nickel	2,50 %
Fe	Iron	2,50 %
Al	Aluminium	7,50 %
Cu	Copper	Rest

01_9820

Property	Value
Material no.	2.0923
Tensile elastic limit	400 N/mm²
Tensile strength	700 N/mm²
Expansion	15 %
Hardness	200 HB

Multicomponent bronze with good gliding properties for the laser welding on copper, copper alloys, as well as mixed joints of stainless steels. Multifunctional usable wire, especially for repairing of damaged hot runner systems in injection moulds. Seawater and cavitations resistant. Increase of the hardness through cold removal.

For base materials

copper
Cu-alloys
CuAl-bronzes

Symbol	Element	Value
Mn	Manganese	1,00 %
Ni	Nickel	4,50 %
Fe	Iron	3,50 %
Al	Aluminium	9,00 %
Cu	Copper	Rest

01_H13

Property	Value
Material no.	H13
Hardness	45 – 50 HRc

H13 is a chromium-molybdenum-vanadium alloyed steel which is characterized good resistance to abrasion at both low and high temperatures, high level of toughness and ductility, uniform and high level of machinability and polishability, good high-temperature strength and resistance to thermal fatigue and excellent through-hardening properties.

For base materials

Symbol	Element	Value
C	Carbon	0,40 %
Mn	Manganese	0,40 %
Si	Silicium	1,00 %
Cr	Chrome	5,30 %
Mo	Molybdenum	1,30 %
V	Vanadium	0,90 %
Fe	Iron	Rest

01_P20

Property	Value
Material no.	P20
Hardness	45 – 54 HRc

P20 is a Cr-Mo-alloyed steel with good polishing and texturing properties, good machinability and uniform hardness.

For base materials

Symbol	Element	Value
C	Carbon	0,34 %
Mn	Manganese	0,80 %
Si	Silicium	0,40 %
Cr	Chrome	1,75 %
Mo	Molybdenum	0,40 %
Fe	Iron	Rest

01_SCVS

Property	Value
Material no.	15CDV6 \| SCVS
Tensile elastic limit	550 – 790 N/mm²
Tensile strength	700 – 1.180 N/mm²
Expansion	13 %
Hardness	42 HRc

Aubert Duval alloy. SCVS is a low carbon material, which combines a high yield strength with good toughness and weldability.

For base materials

15CDV6
SCVS

Symbol	Element	Value
C	Carbon	0,12 – 0,18 %
Si	Silicium	0,20 %
Mn	Manganese	0,80 – 1,10 %
Mo	Molybdenum	0,80 – 1,00 %
V	Vanadium	0,20 – 0,30 %
Cr	Chrome	1,25 – 1,50 %
Fe	Iron	Rest

01_819BS

Property	Value
Material no.	35NCD16 \| 819BS
Expansion	12 - 19 %
Hardness	46 - 48 HRc

Aubert Duval alloy. 819BS is a low alloy material, which combines hight strength and hardness with a good dimensional stability.

For base materials

35NCD16
819BS
1.2767
1.2721

Symbol	Element	Value
C	Carbon	0,30 – 0,40 %
Si	Silicium	0,15 – 0,40 %
Mn	Manganese	0,30 – 0,60 %
Cr	Chrome	1,60 – 2,00 %
Ni	Nickel	3,50 – 4,20 %
Mo	Molybdenum	0,25 – 0,60 %
Fe	Iron	Rest

01_SMV3S

Property	Value
Material no.	Z38CDV5 \| SMV3S
Tensile elastic limit	700 – 900 N/mm²
Expansion	9 %
Hardness	46 – 52 HRc

Aubert Duval alloy. SMV3S ist an alloy with excellent resistance to wear at higher temperature and ideal where a high polish is required.

For base materials

Z38CDV5
SMV3S

Symbol	Element	Value
C	Carbon	0,40 %
Cr	Chrome	5,00 %
Mo	Molybdenum	1,30 %
V	Vanadium	0,40 %
Fe	Iron	Rest

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

1.4000
1.4006
1.4008

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

1.2083
1.4021
1.4034
1.4122

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

1.4122
similar martensitic alloys

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

1.4301
1.4306
1.4541
1.4550
1.4552

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 base materials

mixed bonds with ferritic steels
deckings

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

1.4301
1.4306
1.4401
1.4404
1.4541
1.4550
1.4552
1.4571
1.4580
1.4583

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

1.3948
1.4429
1.4435
1.4438
1.4583
mixed bonds with ferritic steels

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

austenitic-ferritic steel

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

1.4410
1.4515
1.4517
1.4573
1.4593

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

1.4301
1.4303
1.4306
1.4310
1.4541
1.4550
1.4552

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

1.4301
1.4306
1.4401
1.4404
1.4541
1.4550
1.4552
1.4571
1.4580
1.4583

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

1.2083
1.2316
1.2343
1.2344
1.2379
1.4913
1.4922
1.4923
1.4931
1.4935

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

17-4PH

Symbol	Element	Value
C	Carbon	0,07 %
Mn	Manganese	1,00 %
P	Phospor	0,04 %
Si	Silicium	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

316LSS

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

420stst

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

Improbond GmbH – Laser Welding Wire

03_9240

Property	Value
Material no.	2.4831
Tensile elastic limit	420 N/mm²
Tensile strength	760 N/mm²
Expansion	35 %

Ni-based welding wire for the laser welding of similar base materials, also for welding of high strength resistant and high heat-resistant steels. High heat-resistant up to 1000°C and tough at sub-zero temperature up to -196°C. Black-white bonds and deckings.

For base materials

2.4856
mixed bonds with ferritic steels

Symbol	Name	Value
C	Carbon	< 0,02 %
Mn	Manganese	0,20 %
Cr	Chrome	22,00 %
Mo	Molybdenum	9,00 %
Nb	Niobium	3,50 %
Fe	Iron	< 1,00 %
Ni	Nickel	Rest

03_9260

Property	Value
Material no.	2.4806
Tensile elastic limit	400 N/mm²
Tensile strength	650 N/mm²
Expansion	40 %

For the laser welding of austenite-ferrite-bonds and of different materials in the die and mould industry for a tough and elastic weld deposit. For elastic deckings in using laser welding wires with high hardness. Special characteristics: non-corroding, heat resisting, high heat-resisting, non-scaling up to 1.000°C and tough at sub-zero temperature up to -269°C.

For base materials

1.4876
2.4816
black-white bonds

Symbol	Name	Value
C	Carbon	0,02 %
Mn	Manganese	3,00 %
Cr	Chrome	20,00 %
Nb	Niobium	2,50 %
Fe	Iron	2,00 %
Ni	Nickel	Rest

03_9400

Property	Value
Material no.	2.4155
Tensile elastic limit	300 N/mm²
Tensile strength	450 N/mm²
Expansion	25 %

For the laser welding of nickel, nickel alloys and grey cast iron, furthermore suitable for mixed joints of nickel and steel alloys. Good characteristics of temperature and corrosion.

For base materials

GG
mixed bonds of nickel - steel

Symbol	Name	Value
C	Carbon	‹ 0,02 %
Si	Silicium	‹ 0,30 %
Mn	Manganese	0,30 %
Ti	Titanium	3,30 %
Fe	Iron	‹ 0,10 %
Ni	Nickel	Rest

03_9410

Property	Value
Material no.	NiFe-2
Tensile elastic limit	300 N/mm²
Tensile strength	500 N/mm²
Expansion	25 %

Nickel-iron alloy for the laser welding of grey cast iron, annealed cast iron and ductile graphite iron, furthermore for mixed joints with steel. Corrosion resistant claddings are possible.

For base materials

cast iron
annealed cast iron
ductile graphite iron

Symbol	Name	Value
C	Carbon	< 0,10 %
Si	Silicium	< 0,30 %
Mn	Manganese	3,50 %
Ni	Nickel	> 55,00 %
Ti	Titanium	0,40 %
Fe	Iron	Rest

03_I625

Property	Value
Material no.	2.4856
Tensile elastic limit	724 N/mm2
Hardness	145 – 220 HB

Inconel 625 is used for laser welding of Inconel alloy 625, Inconel alloy 825, Inconel alloy 25-6Mo and a range of high alloy austenitic and super austenitic stainless steels, often used in the aircraft industry. It is also used for surfacing of steel, for laser welding of 9% Ni steels and various corrosion-resistant alloys. Inconel alloy 625 has a good resistance to oxidation and scaling at high temperature.

For base materials

Inconel 625
Inconel 825
Inconel 25-6Mo
Inconel G-3
stainless steel 316/ 317

Symbol	Name	Value
C	Carbon	0,03 – 0,10 %
Mn	Manganese	0,50 %
Al	Aluminium	0,40 %
Cr	Chrome	20,00 – 23,00 %
Mo	Molybdenum	8,00 – 10,00 %
Nb + Ta	Niobium + Tantalum	3,15 – 4,15 %
Si	Silicium	0,50 %
Ti	Titanium	0,40 %
Ni	Nickel	Rest

03_I718

Property	Value
Material no.	2.4668
Tensile elastic limit	800 – 1000 N/mm²
Hardness	40 - 44 HRc

Inconel 718 combines corrosion resistance and high strength with very good weldability.

For base materials

Inconel 718

Symbol	Name	Value
C	Carbon	< 0,08 %
Mn	Manganese	0,35 %
Al	Aluminium	0,20 – 0,80 %
Cr	Chrome	17,00 – 21,00 %
Mo	Molybdenum	2,80 – 3,30 %
Nb + Ta	Niobium + Tantalum	4,75 – 5,50 %
Si	Silicium	0,35 %
Ti	Titanium	0,65 – 1,15 %
Cu	Copper	0,30 %
Co	Cobalt	1,00 %
Ni	Nickel	50,00 – 55,00 %
Fe	Iron	Rest

03_HastC22

Property	Value
Material no.	2.4607
Tensile strength	800 –1100 N/mm²

Hastelloy C22 alloy has a good resitence to pitting, crevice corrosion and stress corrosion cracking. It has an excellent antioxidant capacity of aqueous media.

For base materials

Hastelloy

Symbol	Name	Value
C	Carbon	0,010 %
Si	Silicium	0,080 %
Mn	Manganese	0,50 %
Co	Cobalt	2,50 %
Cr	Chrome	20,00 – 22,50 %
Fe	Iron	2,00 – 6,00 %
Mo	Molybdenum	12,50 – 14,50 %
V	Vanadium	0,35 %
W	Tungsten	2,50 – 3,50 %
Ni	Nickel	Rest

03_NiFe36

Property	Value
Material no.	1.3912
Tensile elastic limit	310 N/mm²
Tensile strength	490 N/mm²
Expansion	30 %

Nickel-Iron-alloy with low thermal expansion. Good strength an toughness at low temperature. Low coenfficent of expansion at very low temperature up to-250°C

For base materials

Invar 36

Symbol	Name	Value
C	Carbon	0,10 %
Mn	Manganese	0,60 %
Cr	Chrome	0,50 %
Mo	Molybdenum	0,50 %
Co	Cobald	1,00 %
Ni	Nickel	35,00 - 38,00 %
Fe	Iron	Rest

Improbond GmbH – Laser Welding Wire

04_0923

Property	Value
Material no.	2.0923
Tensile elastic limit	400 N/mm²
Tensile strength	700 N/mm²
Expansion	15 %
Hardness	200 HB

For base materials

copper
Cu-alloys
CuAl-bronzes

Symbol	Name	Value
Mn	Manganese	1,00 %
Ni	Nickel	4,50 %
Fe	Iron	3,50 %
Al	Aluminium	9,00 %
Cu	Copper	Rest

04_1211

Property	Value
Material no.	2.1211
Tensile elastic limit	80 N/mm²
Tensile strength	200 N/mm²
Expansion	20 %
Hardness	60 HB

For the laser welding of copper- and ampcoloy alloys, furthermore for the repairing of sparkeroding electrodes. Ductile weld, close-grained structure and high electrical conductivity. The usable hardness is increased by cold storing.

For base materials

pure copper
ampcoloy alloys

Symbol	Name	Value
Mn	Manganese	0,10 %
Ni	Nickel	‹ 0,30 %
Ag	Silver	1,00 %
Cu	Copper	Rest

04_1367

Property	Value
Material no.	2.1367
Tensile elastic limit	400 N/mm²
Tensile strength	650 N/mm²
Expansion	25 %
Hardness	220 HB

For base materials

Al-bronzes
ampcoloy alloys
cast iron

Symbol	Name	Value
Mn	Manganese	13,00 %
Ni	Nickel	2,50 %
Fe	Iron	2,50 %
Al	Aluminium	7,50 %
Cu	Copper	Rest

04_1461

Property	Value
Material no.	2.1461
Tensile strength	390 N/mm²
Expansion	40 %
Hardness	90 HB

„Laser soldering” of steel alloys, furthermore mixed bonds of copper - steel. High temperature and corrosion resistance.

For base materials

CuSi2Mn
CuSi3Mn
copper alloys
mixed alloys of copper - steel

Symbol	Name	Value
Si	Silicium	3,00 %
Mn	Manganese	1,00 %
Sn	Tin	0,10 %
Zn	Zinc	0,10 %
Fe	Iron	0,07 %
Cu	Copper	Rest

Improbond GmbH – Laser Welding Wire

05_2245

Property	Value
Material no.	3.2245
Tensile elastic limit	100 N/mm²
Tensile strength	160 N/mm²
Expansion	15 %

For the laser welding of Al-Si alloys of up to 7 % Si.

For base materials

AlMgSi0,5
AlMgSi0,7
AlMgSi1
G-AlMgSi6 Cu4

Symbol	Name	Value
Si	Silicium	5,00 %
Zn	Zinc	0,20 %
Ti	Titanium	< 0,15 %
Fe	Iron	< 0,40 %
Al	Aluminium	Rest

05_2384

Property	Value
Material no.	3.2384
Tensile elastic limit	90 N/mm²
Tensile strength	290 N/mm²
Expansion	8 %

AlSi7Mg0,6 material for laser welding of AI-alloys. Good flow properties.

For base materials

AI-alloys

Symbol	Name	Value
Si	Silicium	6,70 – 7,30 %
Mn	Manganese	0,09 %
Zn	Zinc	< 0,10 %
Ti	Titanium	< 0,15 %
Fe	Iron	0,14 %
Mg	Magnesium	0,50 – 0,60 %
Al	Aluminium	Rest

05_2585

Property	Value
Material no.	3.2585
Tensile elastic limit	80 N/mm²
Tensile strength	180 N/mm²
Expansion	5 %

For the laser welding of Al-Si alloys of up to 12 % Si.

For base materials

G-AlSi11
G-AlSi12
G-AlMg3 Si

Symbol	Name	Value
Si	Silicium	12,00 %
Mn	Manganese	~ 0,30 %
Zn	Zinc	< 0,10 %
Ti	Titanium	< 0,15 %
Fe	Iron	< 0,50 %
Al	Aluminium	Rest

05_3535

Property	Value
Material no.	3.3535
Tensile elastic limit	80 N/mm²
Tensile strength	180 - 250 N/mm²
Expansion	15 %

AlMg3 material for laser welding of Al-alloys. Particulary suitable for anodizing.

For base materials

Al-alloys

Symbol	Name	Value
Si	Silicium	0,40 %
Mn	Manganese	0,50 %
Zn	Zinc	0,20 %
Ti	Titanium	0,15 %
Cu	Copper	0,10 %
Fe	Iron	0,40 %
Mg	Magnesium	2,60 - 3,60 %
Al	Aluminum	Rest

05_3548

Property	Value
Material no.	3.3548
Tensile elastic limit	110 N/mm²
Tensile strength	270 – 350 N/mm²
Expansion	16 %
Hardness	70 HB

Laser welding wire for the base materials of the group „Al-Mg-…”, e.g. AlMg 3 (3.3535), AlMg 4,5 Mn (3.3547), AlMg 5 (3.3555) AlMg 2 Mn 0,8, AlMg 2,7 Mn. Furthermore for thermosetting alloys, like AlCuMg 1 (3.1325), AlMgSi 1 (3.2315), AlZn 4,5 Mg 1 (3.4335).The laser welding ability in consideration of the vulnerability to hot cracks should be checked.

For base materials

aluminium alloys
AlMg 3 (3.3535)
AlMg 4,5 Mn (3.3547)
AlMg 5 (3.3555)
AlMg 2 Mn 0,8
AlMg 2,7 Mn
AlCuMg 1 (3.1325)
AlMgSi 1 (3.2315)
AlZn 4,5 Mg 1 (3.4335)

Symbol	Name	Value
Si	Silicium	0,25 %
Mn	Manganese	0,80 %
Mg	Magnesium	4,50 %
Cr	Chrome	0,75 %
Ti	Titanium	0,25 %
Al	Aluminium	Rest

05_4145

Property	Value
Material no.	ER 4145
Tensile elastic limit	265 N/mm²
Tensile strength	310 N/mm²
Expansion	5 %

Al-Si-Cu-alloy with good flow properties and a low melting point. Bright weld, low level of unburned carbon. The weld is easy to polish with a high tensile strength and crack resistance.

For base materials

G-AlSi11
G-AlSi12
G-AlMg3 Si

Symbol	Name	Value
Si	Silicium	10,00 %
Fe	Iron	0,20 %
Cu	Copper	4,00 %
Al	Aluminium	Rest

Improbond GmbH – Laser Welding Wire

06_7025

Property	Value
Material no.	3.7025
Tensile elastic limit	180 N/mm²
Tensile strength	240 – 390 N/mm²
Expansion	24 %

Titanium grade 1, pure titanium, for the laser welding of similar alloys. When working with the material care should be taken to ensure complete coverage of the weld with inert gas. Welding protection gas quality (argon 5.0) is important.

For base materials

3.7025

Symbol	Name	Value
C	Carbon	< 0,10 %
Fe	Iron	< 0,20 %
Ti	Titanium	Rest

06_7035

Property	Value
Material no.	3.7035
Tensile elastic limit	180 N/mm²
Tensile strength	240 – 390 N/mm²
Expansion	24 %

Titanium grade 2, for the laser welding of similar alloys. When working with the material care should be taken to ensure complete coverage of the weld with inert gas. Welding protection gas quality (argon 5.0) is important.

For base materials

3.7035

Symbol	Name	Value
C	Carbon	< 0,10 %
Fe	Iron	< 0,20 %
Ti	Titanium	Rest

06_7165

Property	Value
Material no.	3.7165
Tensile elastic limit	830 N/mm²
Tensile strength	895 N/mm²
Expansion	10 %

Titanium grade 5, for the laser welding of similar alloys. When working with the material care should be taken to ensure complete coverage of the weld with inert gas. Welding protection gas quality (argon 5.0) is important.

For base materials

3.7165

Symbol	Name	Value
C	Carbon	< 0,08 %
Fe	Iron	< 0,40 %
V	Vanadium	3,50 – 4,50 %
Al	Aluminium	5,50 – 6,75 %
Ti	Titanium	Rest

06_CoCr

Property	Value
Material no.	CoCr
Tensile elastic limit	630 N/mm²
Tensile strength	890 N/mm²
Expansion	10 %
Hardness	70 HB

Cobalt-chrome alloy, especially used in the dental medicine. Corrosion-free.

For base materials

cobalt-chrome alloys

Symbol	Name	Value
Mo	Molybdenum	4,00 – 5,00 %
Cr	Chrome	27,00 – 31,00 %
Co	Cobalt	62,00 – 66,00 %

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