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Resistance Welding

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Efficiency meets precision: the strength of Resistance Welding & Brazing

Resistance welding and brazing play a vital role in automotive, aerospace, and electronics manufacturing, enabling the seamless joining of metal components through heat generated by electrical resistance. Renowned for its speed, precision, and efficiency, this technique ensures robust, distortion-free welds that meet the highest industry standards.

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Optimal materials for welding and brazing tips

Copper Tungsten

Copper – tungsten (Cu-W) alloys combine tungsten’s exceptional strength and high melting point with copper’s superior thermal and electrical conductivity, making them ideal for high-load welding applications. These alloys excel in durability, high-temperature performance, and efficient heat dissipation, ensuring reliability in demanding tasks. Compatible with standard machining techniques such as milling, drilling, and turning, W-Cu alloys allow flexible and precise shaping. With optimized copper content to balance hardness and machinability, W-Cu electrodes are particularly suited for welding high-resistance materials like stainless steel, nickel alloys, and refractory metals. Their exceptional wear resistance and heat stability make them indispensable for projection, spot, and seam welding.

Molybdenum

Molybdenum is a preferred material for resistance welding and brazing due to its high melting point and ability to withstand extreme heat without softening. This ensures the integrity and precision of electrodes, enabling consistent heat transfer and extended electrode life. With excellent thermal and electrical conductivity, molybdenum electrodes minimize surface damage and reduce maintenance requirements in demanding environments. Their machinability allows for easy customization, ensuring precise designs for improved contact surfaces. Molybdenum excels in welding non-ferrous metals like copper, brass, and bronze, as well as certain stainless steels and nickel-based alloys.

Synaptite Grade 1

Synaptite Grade 1 is a copper-based Metal-Matrix-Composite (MMC) designed as a tungsten-free alternative for resistance welding and brazing. It reduces redressing needs, offers easy machinability, and ensures operational consistency at high temperatures. With robust hardness, excellent machinability, and the ability to adapt electrode designs, Synaptite Grade 1 provides an efficient, secure solution for demanding applications.

Synaptite Grade 2

Synaptite Grade 2 is a molybdenum-based Metal-Matrix-Composite designed for resistance welding of copper sheets and wires, ideal for electrical contacts and connections. As a tungsten-free material, it minimizes redressing while offering easy customization for precise designs. Its performance includes stable operation at high temperatures, low conductivity, and reliable resistance to deformation, ensuring secure and effective welding solutions.

Enhancing Productivity, Efficiency, and Sustainability

Productivity

Advanced materials in welding electrodes enable faster production cycles, extended service life, and reduced maintenance downtime without compromising quality. Our composite grades combine machinability, durability and high-temperature hardness capabilities.

Efficiency

Engineered resistivity ensures efficient heat transfer, reducing operational costs and enhancing welding performance. EPoS’s eForging process eliminates the need for sintering furnaces, creating cost-effective alloys ready for assembly without additional machining.

Sustainability

Efficient welding processes also consume less energy, promoting overall sustainability. Durable welding tips decrease replacement frequency, cutting down waste and the environmental impact associated with manufacturing and disposal.Our Cobalt and Berrylium free grades further enhance employee safety and reduce waste. Our Tungsten-free grades and mitigate raw material criticality and promote sustainability in welding electrode manufacturing.

As electrification advances, industries face new challenges in resistance welding and brazing, such as working with ultra-thin sheets and miniaturized components. EPoS addresses these challenges with cutting-edge materials that offer robust, cost-effective, and environmentally friendly solutions. Our innovations empower businesses to enhance productivity, maximize efficiency, and achieve greater sustainability.

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