Best Practice Wire & Spark Electrical Discharge Machining
Di-Spark Ltd aspire to best practice in everything we do, from supplier and supply chain management to customer liaison and satisfaction to QMS, inspection and a timely delivery. We specialist in best practice wire & spark electrical discharge machining (wire/spark EDM), 5 axis machining, mill-turn machining and large multi axis machining.
As signatories to the Investors in People framework via our links with local universities and committing to apprenticeships, and commitments to annual certification such as AS9100 revision C and our SC21 supply chain membership, we are serious about world class manufacturing. Di-Spark supply sub-contract machining services to companies in sectors such as aerospace and aviation, oil & gas, satellite and space, precision medical instruments, nuclear and energy, high-end motorsport such as Formula 1, defence, and scientific instruments. Many of our customers choose Di-Spark for wire & spark electrical discharge machining due to our vast experience and knowledge levels with EDM technology and the lengths we’ll go to in order to achieve excellence.
As part of a lean manufacturing philosophy and decades of experience managing multi-process manufacturing, we supply best practice wire & spark electrical discharge machining as either stand-alone machining processes, or indeed as part of a suite of best-practice, advanced machining processes using the latest innovations in machining technology. Our QMS is constantly reviewed and our Cad/Cam facility sited directly on the machine shop floor, and our relentless attention to detail achieves reduced setup times, improved quality – especially where hardened or exotic materials are concerned and on-time delivery for our customers.
Wire & spark electrical discharge machining is often used for internal profiling of parts, components and sub-assemblies, with spark electrical discharge machining particularly useful for intricate detail, close tolerances on even the hardest of materials, fine surface finish and angular holes and apertures, weak or thin walled materials and complex geometric components. Spark electrical discharge machining is also often referred to as ‘die sink’ machining.