Materials with integrated wear protection
Full Metal Anti-Aging with long-term effects
Materials with integrated wear protection
Full Metal Anti-Aging with long-term effects
150.000
kilogramms per year
We supply partners worldwide with materials for weld deposition, thermal spray, hot isostatic pressing and additive manufacturing, such 3D printing. The quantities vary from kilogram scale up to many tonnes. We not only adapt the material to your requirements, but also the delivery quantity.
20+
industries supplied
Deloro has been supplying very different industries since 1910. Therefore, we know industry-specific potentials for optimisation and can usually determine suitable filler materials at very short notice. And: If we don’t yet have a filler material that is 100% suitable, we can simply develop one – thanks to Deloro’s large technical expertise across the complete chain of research and development up to production.
500+
materials available
Our portfolio of materials has been consistently expanded since 1910. We not only orient ourselves on customer requirements, but also consistently observe regulatory, ecopolitical or application-related developments as well as innovations in research based on scientific applications. Worldwide.
Materials / alloys
Alloys for highest performance
At Deloro, you will find various alloys: Stellite, Tribaloy, Delcrome and many more for various application purposes. Your plus with Deloro: Using our own alloys, we have deep expertise regarding our own filler materials and their applications.
Deloro has extensive consulting expertise for alloys and filler materials. Why? We are our own user. The results from quality assurance measures and application experience will directly feed into research and development to optimise the respective alloy or filler material, as well as their implementation for different applications.
Deloro has been providing wear solutions in the form of high-performance alloys and hardfacings since 1910. The progressive loss of material from a component surface through mechanical wear, as a result of relative movement between surfaces and/or external media (sand, water,…) and usually exacerbated by thermal or chemical factors, affects the functionality of components. In a worst-case scenario, this can lead to longer-term failures of critical processes or the safety of users or consumers being compromised.
Corrosion is the degradation of a material resulting from an unfavourable interaction with its environment. It can be mitigated with Deloro alloys. Corrosion can affect the function of a component, or even a whole system. Corrosion protection is mandatory to protect critical processes.
Alloys from Deloro have excellent thermal stability and high-temperature oxidation resistance, because they contain elements such as nickel, cobalt, chromium, tungsten or molybdenum. This preserves strength, stability and functionality even (in certain cases) up to 1000 °C. It makes them ideal for use in combustion engines.
More about alloys
Deloro provides a broad range of alloys for many different industries, sectors and applications. But all of these with one intention: Protection against wear, corrosion and high temperatures, developed for critical processes of today and new technologies further into the future.
Hardfacing alloys and consumables
The Deloro materials are available as different types of product, which respectively match the coating and processing processes used by you. Deloro provides filler materials for PTA and laser deposit welding, thermal spray, additive manufacturing as well as processing by means of hot isostatic pressing (HIP) and sintering. The specified diameters might not be available for all alloys. We will be pleased to supply special sizes on request.
Pulver
Die Werkstoffe in Pulverform werden mit Hilfe von Stickstoff gasverdüst. Dies führt zu einer hervorragenden Sphärizität, Schüttdichte und Fließfähigkeit und erfüllt die Anforderungen an niedrige Sauerstoffgehalte.
Drähte
Stellite™ Fülldrähte auf Kobaltbasis sind in den gängigsten Durchmessern von 1,2 bis 3,2 mm erhältlich und werden auf 15 kg K300-Standardspulen oder 25 kg-Rollen geliefert.
Schweißstäbe
Deloro Werkstoffe in Form von Stäben sind in den Standarddurchmessern von 2,5 bis 8,0 mm verfügbar. Um den unterschiedlichen Anforderungen gerecht zu werden, reichen die Längen dabei flexibel von 350 mm bis zu 4 m.
Elektroden
Deloro Elektroden sind in typischen Standarddurchmessern von 3,2 bis 6,4 mm verfügbar. Die Elektroden werden in Längen von 350 mm geliefert und sind in Kartons mit einem Gewicht von 5,0 kg verpackt. Elektroden in einem Durchmesser von 2,6 mm sind auf Anfrage erhältlich.
Cladding. With a system.
Deloro welding equipment is characterized by efficient use and process-oriented usability. A user-friendly, safe human-machine interface complements these features. In addition to quality assurance according to ISO 9001, we comply with the European Machinery Directive 2006/42. With innovative features such as the Internet of Things, Deloro supports digital transformation in production.
Special grain sizes available
All materials can usually also be supplied in customer-specific grain size distributions. We will be pleased to advise you on this with regard to application and base material.
Materials / Application
Types of application
Weld deposition
The rods used for WIG welding can also be used for acetylene oxygen weld processes. If correctly applied, a very low substrate dilution can be achieved in the layer.
MMA welding is a widespread weld deposition process. With this, an arc is generated between a shielded consumable electrode and the workpiece. The metallic core is melted by the arc and transferred to the weld pool as droplet.
The electrodes are supplied in lengths of 350 mm (14″) and boxes of 5.0 kg (approx. 11 lb) each.
With these arc welding procedures, the armouring wire is continuously guided through the welding torch into the arc by a coil, where it is welded and transferred to the workpiece. During submerged arc welding (UP welding), wire is used as weld deposition material. Here, flux powder flows on a mineral basis around the welding wire and is melted by the arc.
During powder welding, a specially constructed acetylene oxygen torch is used. The workpiece is heated by the torch. The powder is introduced into the gas flow from the integrated powder container and transferred to the workpiece by the flame.
The PTA process can be easily automated and provides a high degree of reproducibility of the weld positions. As the build-up weld materials are available in powder form, build-up welds can be produced from many different materials and material combinations with a large range of hardness and other properties.
During build-up with a laser, the laser beam is focused onto the workpiece using a laser beam using an optical arrangement, which heats up the surface. At the same time, armouring material is introduced into the laser beam in the form of powder or wire, and melted.
With additive manufacturing of metal parts based on a powder-pack method, such as selective laser melting, electron beam melting or the binder jet procedure, a special specification of the powder used for the procedures is required.
Tailored compositions and grain size distributions are possible.
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