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Our extensive research and development activities are closely attuned to the needs and wishes expressed by customers worldwide.
The pooling of expertise enables us to give the best possible advice on the selection of stainless steels, welding consumables and methods.
Find here detailed information about Matchless in Stainless products.More information
Find here packaging types for Matchless in Stainless products.More information
Find here detailed information about Finishing Chemical products.More information
Find here detailed information about the Matchless in Stainless success stories.More information
Find here information about austenitic, ferritic & duplex stainless steels.More information
With over 90 years of experience, Böhler Welding has actively shaped the history of stainless welding technology and will continue to do so in the future.
Overview of stainless steel products manufactured by voestalpine Böhler Welding:
Stick electrodes for MMA
MMA welding is suitable for almost all weldable stainless steels and a broad range of applications. Characterized by great flexibility in all welding positions, MMA is widely employed for primary fabrication, on-site work and repair welding. The electrodes used for MMA are characterized by the coatings on the electrodes, which can be of several different types.
Electrodes offered by Böhler Welding are produced with a range of special coatings for different applications with focus on optimizing efficiency and weld metal quality in each application. They are named according to the chemical composition of the coatings. The coatings of Böhler Welding’s electrodes fall into three groups: basic electrodes, rutile electrodes and rutile-acid electrodes. Depending on the type of coating used, the electrodes have different welding characteristics and produce different weld metal properties.
Stick electrodes for MMA product portfolio
TIG welding is characterized by high quality weld metal deposits, great precision, superior surfaces and excellent strength. It is widely used in tube and pipe welding (wall thickness from 0.3 mm upwards).
Flux- and metal-cored wires (FCAW/MCAW)
For high-alloyed base materials, precise alloy adjustments ensure high quality welds with excellent mechanical properties and corrosion resistance. Our state-of-the-art production technology and internal quality control - exceeding the high standards of the DIN EN ISO 9001 quality system - ensure outstanding and consistent product quality to our customers and partners – every time.
Böhler Welding flux-cored wires offer a productive and versatile alternative for the welding of stainless steel. The range consists of all-positional types with fast-freezing slag enabling superior deposition rates and downhand types with slow-freezing slag optimized for flat and horizontal PA (1G/1F), PB (2F) welding with a high travel speed.
Flux- and metal-cored wires product portfolio
SAW wires and flux
Submerged arc welding (SAW) uses a metallic filler metal (wire) and a non-metallic consumable, the welding flux. Böhler Welding offers a vast range of filler materials for submerged arc welding. The product range comprises over 120 wire/flux combinations covering all types of stainless steel. They are fully developed in-house and are manufactured in our specialized production unit in Hamm, Germany.
SAW wires and flux product portfolio
MIG/MAG solid wires
MIG/MAG is a high productivity, economical welding method well-suited to continuous welding sequences. It can be used in both manual and automatic welding.
Welding wires from Böhler Welding can be supplied in special volume packaging in the form of round and octagonal drums with filling contents from 250 up to 500 kg, depending on wire type and diameter.
MIG/MAG solid wires product portfolio
Different packaging is available depending on product and application. The weight is dependent on content and here an approximate weight is given for Ø 3.2 mm.
- Tin (approximately 4.2 kg)
- DrySystem 20 (approximately 1.5 kg)
- DrySystem 30 (approximately 2.6 kg)
- Moisture-resistant plastic capsules, packed in cardboard boxes (~4.1 kg)
Typical dimensions for covered electrodes, mm
- In cardboard tubes.
- Cut legth 1000 mm.
- Weigt 4 x 5 kg.
Typical dimensions for TIG rods, mm
Böhler Welding cored wires are available on wire basket and plastic spools. They are precision layer wound and have excellent feeding characteristics. All stainless steel flux-cored wires are vacuum-packed in moisture resistant aluminized bags for maximum protection. Inside, the spool is contained by a plastic bag. This makes protection of the wire easier when not used.
The standard weights and packaging are given below. For fully automated applications, smaller spool packaging is offered.
- Precision layer wound SAW wire on steel wire spools.
Spool type EN ISO 544
Basket ring spool B 450
Basket ring spool B 300
- All SAW wires are available in all dimensions and packaging types.
- Two different drum solutions are available for SAW wire - static and rotating drums.
Static drums: Pre-twisting allows vertical wire feeding out of the drum with help of a retainer ring and cone with central connection for liner connection. This is mostly limited to small wire diameters (≤ 1.6 mm). Static drums do not require a turn-table.
- 250 kg in dimensions Ø 0.8, 1.0, 1.2 and 1.6 mm
- 400 kg in dimensions Ø 1.0, 1.2 and 1.6 mm
- 600 mm wide and 980 mm high. With the plastic cone the total height is 1285 mm.
Rotating drums: For bigger wire diameters (≥ 2.0 mm). To unwind the wire (during the welding process) the drum has to rotate on a turn-table. The wire-feed motor pulls the wire tangentially out of the drum. An additional extension inside the inner cylinder makes the drum rotate.
- 350 kg (150 and 250 kg) in dimensions Ø 2.0 – 5.0 mm
- 570 mm wide and 970 mm high
- Moisture resistant plastic sack. Weight 25 kg
- Metal drums. Weight 30 kg
- Precision layer wound on wire basket or plastic spools.
Precision layer wound wire for MAG welding.
BS15, SVK15, DKS15
Drum solutions for solid wire for MAG welding.
Height with cone, mm
Storage and transport safety
Acting in a highly competitive market, Serimax is constantly working on solutions to strengthen their global offer for pipeline welding. The next step in this development was to increase the productivity by replacing manual welding processes for CRA pipes in 5G position with automated FCAW and a bug system. As existing products did not meet the requirements, a new flux-cored wire was needed.
For their objective to become the first pipeline welding company able to offer a welding solution with an automatic welding bug system and a 625 type flux-cored wire for the welding of cladded pipes in position 5G, they turned to voestalpine Böhler Welding for support.
According to the requirements Serimax had communicated based on their experience and customer specifications, the following product features were crucial:
- Good weldability in all positions
- 5G welding with constant parameter setting
- Good slag detachability
- No defects (especially porosity)
- Fulfilling mechanical properties
The team of Global R&D Joining Cored Wires developed a wire with better weldability, slag removal and resistance to pore formation than other wires on the market.
Find here more details and customer benefits about FOXcore 625-T1:
SERIMAX - New 625 flux-cored wire in 5G position with automatic bug system
- Good weldability in all positions
- Same parameter settings in all positions
- Good slag detachability
Austenitic stainless steels are the most common stainless steels. The austenitic group covers a wide range of steels with great variations in properties. Corrosion resistance is normally the most important of these.
Corrosion resistance: Austenitic stainless steels are characterized by excellent corrosion resistance. Many austenitic stainless steels have a low carbon content (< 0.030%). This makes them resistant to sensitization (i.e. predisposition to intergranular corrosion) engendered by the brief thermal exposures associated with cooling after annealing, stress relieving or welding.
Mechanical properties: Austenitic stainless steels are primarily characterized by their excellent ductility, even at low temperatures. Ferrite-free, fully austenitic stainless steels with a high nitrogen content, and austenitic stainless steels with a ferrite content up to 8 FN, have very good impact toughness and are therefore highly suitable for cryogenic applications.
Weldability: Austenitic stainless steels are generally easy to weld and do not normally require any preheating or post-weld heat treatment. With respect to weldability, the filler metals used for welding these steels can be divided into two groups:
- Fillers with min. 3% ferrite (e.g. types 19 9 L / 308L, 19 12 3 L / 316L and 19 9 Nb / 347)
- Fillers with zero ferrite (e.g. austenitic type 20 25 5 Cu N / 385 and nickel-base fillers such as Ni 6625 / NiCrMo-3 and Ni 6059 / NiCrMo-13)
More details about corrosion resistance, weldability and mechanical properties of austenitic stainless steels can be found in our special Stainless Steel Welding Manual. Please contact your sales representative or contact us (contact form) for more information.
Ferritic stainless steels are, in principle, ferritic at all temperatures. They are normally alloyed with 13 – 18% chromium and low levels of the austenite formers carbon and nickel.
Corrosion resistance: Modern ferritic stainless steels (e.g. type 430) have a low carbon content. Their resistance to atmospheric corrosion, organic acids, detergents and alkaline solutions is good (comparable to that of austenitic type 304L). The resistance of ferritic stainless steels in chloride containing environments and strong acids is moderate.
Mechanical properties: Compared to the common austenitic grades, ferritic stainless steels have higher yield strength, but lower tensile strength.
Weldability: The weldability of ferritic stainless steels depends heavily on their chemical compositions. Due to the generally high (C+N)/Cr ratio, which led to martensite formation and embrittlement in the heat-affected zone (HAZ), the “old types” of steel had rather poor weldability. Modern ferritic stainless steels are entirely ferritic at all temperatures. Consequently, weldability is much improved.
More details about corrosion resistance, weldability and mechanical properties of ferritic stainless steels can be found in our special Stainless Steel Welding Manual. Please contact your sales representative or contact us (contact form) for more information.
Duplex (austenitic-ferritic) stainless steels: corrosion resistance, mechanical properties, weldability
Duplex stainless steels have a two-phase microstructure with approximately 50% austenite and 50% ferrite.
Corrosion resistance: Due to the high content of chromium, nitrogen and additions of molybdenum, duplex stainless steels are characterized by their high resistance to pitting and crevice corrosion. All modern types of duplex stainless steels are produced with low carbon content. This and the favorable microstructure, make them resistant to sensitization to intergranular corrosion.
Mechanical properties: Duplex stainless steels combine the properties of ferritic and austenitic steels. The yield strength is up to twice as high as for austenitic steels with similar pitting corrosion resistance and the ductility is higher as compared to ferritic steels.
Weldability: Although somewhat different to ordinary austenitic stainless steels such as 304L and 316L, the weldability of duplex stainless steels is generally good. Duplex stainless steels are typically alloyed with 0.10 – 0.27% nitrogen and solidify with a fully ferritic structure with austenite nucleation and growth during cooling.
More details about corrosion resistance, weldability and mechanical properties of duplex stainless steels can be found in our special Stainless Steel Welding Manual. Please contact your sales representative or contact us (contact form) for more information.