Termékek vásárolj hegesztőgázt közelben (35)

Laser drilling is a non-chipping drilling technique for producing fine holes in various materials and material thicknesses. Through the targeted use of pulsed laser radiation, the finest drillings in the micrometer range can be realized at high speed. We offer percussion drilling and single pulse drilling, two precise drilling methods for many applications.

Wir fertigen Schweißkonstruktionen jeder Art- ob Behälter, Rohr-/ Profilkonstruktionen aus Stahl, Edelstahl oder Aluminium, Einzel - oder Serienschweißarbeiten- in allen Bereichen. Insbesondere im Sichtnahtbereich können wir für Sie tätig werden. Unsere besondere Spezialisierung liegt neben dem Verschweißen von herkömmlichen Materialien aus Stahl und Edelstahl im Fügen von Aluminium. Hier wird vorrangig im WIG–Verfahren geschweißt, wodurch wir neben der technischen Qualität auch eine hervorragende optische Qualität liefern. Unsere Schweißer verfügen über unterschiedliche Qualifikationen gem. DIN EN ISO 9606-2:2005, EN 287-2 DIN 6700, die im Bedarfsfall abgefordert werden können. Nach dem Fügen können spezielle Aluminiumlegierungen thermisch ausgelagert werden um im Bedarfsfall eine Erhöhung der Zugfestigkeit zu erreichen. • Schweißen Einzelteile • Schweißen Serie

Lösungen für die Ewigkeit. MIG / MAG / WIG

Herstellungslänge : 6 m Toleranz D3 / T3: Außendurchmesser: +/- 0,75%, mind. +/- 0,30mm Wanddicke: +/ - 10,0%, mind. +/ - 0,20mm

in den Nennweiten 1/8" BSP, 1/4" BSP, 3/8" BSP, 1/2" BSP , 3/4" BSP, 1" BSP,1 1/4" BSP, 1 1/2" BSP, 2"BSP, 2 1/2" BSP, 3"BSP, 4"BSP, 6" BSP in den Werkstoffen 316 / 1.4571 Muffen ähnlich DIN 2999 Nippel ähnlich DIN 2986 Verschraubungen etc. Kugelhähne im Werkstoff 1.4408 mit Schweißende oder Muffe

MAG MIG WIG, Stahl, Edelstahl, Aluminium, Punktschweißen, Bolzenschweißen, Hubzündungsbolzenschweißen, Spitzenzündung Bolzenschweißen, automatisiertes Längsnahtschweißen Rohr t=2,0 mm bis 500 mm lang Wir begleiten Sie gern bei der Realisierung Ihrer Prototypen. Gerne erweitern wir unser Produktions- Portfolio für ihre Ideen und Produkte. Sprechen Sie uns an. Unsere Projektleiter besprechen mit Ihnen das Projekt und sind bis zum serienreifen Produkt Ihr Ansprechpartner.

Schweißen von Stahl, Edelstahl sowie Aluminium Folgende Verfahren kommen beim Schweißen zur Anwendung: • E • WIG • MAG • MIG

Unser Fachpersonal arbeitet präzise und schweißt auf den Punkt genau. Wir bearbeiten Edelstahl, Aluminium und einzelne Sonderwerkstoffe. In unserem Schweißfachbetrieb schaffen wir starke und technisch differenzierte Verbindungen: WIG WIG Längsnahtschweißen bis 1.500 mm MIG MAG Punktschweißen Bolzenschweißen Löten Nieten Kleben Schrauben Einpressverbinden

Wir schweißen Stegwellen bis 3.800 mm Länge und 600 mm Durchmesser (mit Stegen). Wir erfüllen die Qualitätsanforderungen, um an wehrtechnischen Produkten der Klassen Q1 relevante Arbeiten der Bauteilklasse BK2 durchführen zu können. Weitere Zertifikate: Zulassung zum Schweißen, DIN EN 1090-1 und DIN EN 1090-2 Elektroschweißen (111) UP-Schweißen (121) MAG-Schweißen (135) WIG-Schweißen (141) Widerstandspunktschweißen (21) Pressstumpfschweißen (25) Gasschmelzschweißen (311) Löten (912) maximales Gewicht: 6,0 t Abmessungen (L x B x H): 4,0 x 4,0 x 2,0 m Materialien: Stahl, Niro, Aluminium, Kupfer

Das Elektronenstrahlschweißen (EB-Schweißen) erzielt schmale und gleichzeitig tiefe Nähte bei vergleichsweise hohen Schweißgeschwin-digkeiten. Es wird deshalb nicht nur für Standardwerkstoffe sondern auch für Sonderwerkstoffe, für diverse Werkstoffkombinationen, für dünn- und dickwandige Konstruktionen erfolgreich eingesetzt. Wirtschaftliche Lösungen basieren immer auf einer elektronenstrahlgerechten Konstruktion, weil sie die technologischen Vorteile der Elektronen-strahltechnik, die Prüfbarkeit der Verbindung und die Einsparung von Bearbeitungsprozessen kombiniert. Eine effiziente und kostengünstige Bauteilgestaltung nutzt die besonderen Eigenschaften des Elektronenstrahlschweißens.

Automatikschweißmaske mit Gebläseatemschutz Die Speedglas 9100 FX Schweißmaske verbindet durch die FlexView-Funktion einen Automatikschweißfilter mit einem klaren Schutzvisier. Das Blickfeld der Klarsichtscheibe ist im Vergleich zu früheren Speedglas-Modellen nicht nur größer, Sie haben die Maskengeometrie für ein erweitertes Sichtfeld in alle Richtungen völlig neu gestaltet.

Wir bieten ihnen eine kleine Auswahl an Produkten der HARRIS Calorific GmbH.

Durch das Beschichten verschlissener Flächen von Werkstücken durch Schweißen, dem so genannten Auftrags- bzw. Reparaturschweißen können Sie erhebliche Kosten einsparen. keine Neuanfertigung keine Anfertigung von Gußmodellen kein aufwendiger Umbau, da Originalersatzteile nicht mehr lieferbar sind keine langen Wartezeiten Schonung von Umwelt und Ressourcen Erhöhung der Standzeiten durch verschleißfestes Material So erfolgt die Aufarbeitung von Verschleißteilen besonders für die Fördertechnik, Zementindustrie, Landmaschinentechnik, Schienenfahrzeuge und die Dämmstoffindustrie. Wir regenerieren durch Auftragsschweißen etwa: Kran- und Katzlaufräder Spurkränze Geräteträger Werkzeuge und Bauteile aus dem Maschinenbau und der Schmiedetechnik Schnecken Baggerschaufeln Härten von Greifermessern Zapfen und Wellen aller Art Lagersitze etc.

TEPROSA GmbH has specialized for many years in the manufacture of sophisticated, precisely fitting laminated cores of exceptionally high quality. In the field of electrical steel sheet, we manufacture individual laminations and sheets for stators and rotors, as well as entire sheet packages stator- or rotor packages) from various steel grades. We process grain oriented electrical steel for generators, transformers and other electrical machinery. Our most common method for packaging the individual laminations is baked enamel technology. Alternatives are welding or bolting of laminations. As a long-standing supplier to various OEMs, the quality of our work is particularly important to us. Therefore, we work according to uniform processes and thus ensure consistent quality and complete traceability of each individual production step.

Baking varnish is a special joining technology for sheet metal packages. After the individual lamellas have been cut, electrical steel with a baking varnish coating is baked into a sheet metal package in a two-stage temperature step. The result is a full-surface, solid connection between the individual sheets with complete insulation. Sheet metal packages manufactured in this way have high precision and perfect magnetic properties. Advantages of the Backlack process: The Backlack process offers several advantages over alternative packaging processes, which we will discuss in detail below. Precision – Sheets coated with baking varnish are baked over the entire surface. This means that even delicate slats can be assembled precisely.

We are specialized in performing thermal shock testing of electronic and mechanical assemblies and have a lot of experience with the requirements of the automotive industry and medical technology. On behalf of our customers, we perform environmental and climatic tests according to customer specifications and applicable standards, thus uncovering optimization potential. We will be happy to advise you with regard to your testing tasks and, together with you, transfer the entire testing process into a specification sheet. OUR OPPORTUNITIES 2-chamber system air-air Test chamber volume up to 130 liters Temperature range hot chamber 50°C to 200°C Temperature range cold chamber -80°C to -100°C Change between chambers <15 seconds Maximum test material weight 25 kg State monitoring of the test specimens during the test

We offer laser direct structuring (LPKF-LDS process) for the production of 3D-MID (so-called three-dimensional circuit carriers) as a service in Magdeburg. 3D-MID stands for Mechatronic Integrated Device (or Molded Interconnected Devices). The MID technology makes it possible to use three-dimensional plastic parts as circuit carriers for electronic or mechatronic assemblies. The LPKF-LDS process is one of the technologically leading and at the same time most economically interesting process for the production of 3D-MID. The LPKF LDS process represents the central process step. The process was developed and patented by the company LPKF Laser & Electronics AG in Hanover. Materials:Plastic (ABS, PC / ABS, PC) Repeat accuracy:± 2 μm

Testing services from a specialist: we are specialized as a testing laboratory for the simulation of specific environmental conditions and the monitoring of the influences of these conditions on electronic assemblies. We offer the following services in our test lab and at your site as contract testing.

Use our online inquiry form to place your request through our website at any time without any additional effort. Simply upload your manufacturing data to our server and deposit the material you require. Repeat accuracy:±2 µm Positioning accuracy:± 25 μm Contour accuracy:± 0.01 mm Minimum pattern width:60µm

With the help of the 3D-MID process, plastic parts can be metallized not only over the entire surface, but also selectively. To do this, the plastic part is activated with a special laser at the points that are to be coated (this is referred to as laser activation or laser direct structuring). The additives contained in the plastic directly under the plastic surface are “exposed” by the laser treatment. In a chemical bath, copper particles can then be deposited specifically only on the activated surfaces. Other metals, e.g. nickel, tin or gold, can then be deposited onto the starting layer of copper. In this way, a selectively coated plastic part is obtained. MID technology thereby makes it possible to selectively coat two-dimensional and also three-dimensional plastic parts and use them, for example, as circuit carriers for electronic or mechatronic assemblies. With the LPKF-LDS process

Select the material, the quantity and the sheet thickness. If you already have a technical drawing, you can upload it to our server. Wwe only need your contact details to send you an individual offer for laser cutting contract manufacturing! If you need several lamellas, you can simply send off the order form several times.

We offer our customers laser cutting of fine and thin sheets, as well as laser fine cutting of materials with very low material thicknesses (0.02 mm – 4.00 mm) as contract manufacturing. Of course we manufacture from the first sample and also up to mass production. If you do not know whether your material is suitable for processing with the laser, we will be happy to find out for you and provide you with a first demonstration sample free of charge. Material Thickness:from 20 – 4,000 μm finishing:brushing, vibratory finishing, electropolishing Repeat accuracy:± 2 μm Materials:steel / stainless steel, brass, copper, aluminum

Mechatronic integrated devices or molded interconnect devices (injection-molded circuit carriers) are spatial electronic assemblies – so-called 3D-MID. A special process is used to apply metallic conductor tracks to a specific substrate material (often plastic), thus creating three-dimensional assemblies that also serve as circuit carriers. These spatial electronic assemblies are manufactured using 3D-MID technology and, compared to conventional assemblies, enable the integration of electronic, mechanical, fluidic, optical and thermal functions. The resulting additional benefits represent advantages that cannot be realized with two-dimensional circuit carriers (printed circuit boards).

We are specialist in strain gage strain measurements on printed circuit boards and all other components. We carry out the application of strain gages and determine for you the actual stresses that occur, or the strain (also strain-rate) on a specific or several components in the manufacturing or assembly process. We perform our DMS measurements with certified measurement technology and according to the specifications of IPC/JEDEC-9704A. Expert advice from TEPROSA When measuring strain, in addition to many factors such as the appropriate measurement technology, it is also important to rperform the strain measurement correctly and to ensure that the sensors record the forces correctly. To ensure that the deformation of an object is correctly determined, it is therefore crucial to select the right strain gauges (also known as measuring strips) and to place them in the correct position on the measured object.

Shims, or shims sheets / spacer sheets / shims, are used to compensate for tolerances that occur in manufacturing. In this way, components and products in fixture construction, on machines and in automobiles can be compensated for easily, cost-effectively and with high precision.

3D-MID are three-dimensional, spatial circuit carriers. The abbreviation MID stands for Molded Interconnect Device, or also for Mechatronic Integrated Devices. The term extension Mechatronic Integrated Devices as opposed to Molded Interconnect Devices (origin Molded = injection molded) is increasingly being used, since the three-dimensional basic bodies are no longer manufactured exclusively through the use of injection molding technology and no longer exclusively from plastic.

In an environmental simulation, assemblies are subjected to defined environmental conditions to validate their behavior under those conditions. The variables of an environmental simulation test include climatic aspects such as temperature (cold, heat), the air conditions (humidity, wetness), mechanical influences such as dust, vibration, vibration or impacts, and corrosive environmental effects such as salty lift (salt fog). As an environmental simulation laboratory, we simulate these environmental conditions in our climatic chambers and climatic chambers, creating real conditions to investigate the long-term behavior of the test specimens in reality. Environmental simulation and thermal shock testing laboratory for electronic assemblies and printed circuit boards We specialize in performing environmental simulation and temperature shock testing of electronic and mechanical assemblies. With over ten years of experience with the requirements of the automotive industry and medical

DN 25 - DN 100

HL= ca. 6 m Variante:HF/ Laser geschweißt

für die Lebensmittelindustrie, Kosmetik und Pharmazie in den Standards DIN in den Nennweiten DN10, DN15, DN20, DN 25, DN32, DN40, DN50, DN65, DN80, DN100, DN125, DN150 in den Standards ISO in den Nennweiten DN10, DN15, DN20, DN 25, DN32, DN40, DN50, DN65, DN80, DN100 in den Standards ZOLL in den Nennweiten 1/2", 3/4", 1", 1 1/2", 2", 2 1/2", 3", 4" in den Werkstoffen 1.4404