Wire EDM

Precision Wire EDM Services for Tool & Die Making and Critical Metal Components

Cutting-Edge Wire EDM for Precision Tooling & Critical Component

As a PrecisionX Group company, MSK Precision Products offers advanced Wire EDM services designed to deliver precise, high-quality solutions for in-house tool and die making, as well as critical metal component manufacturing. This cutting-edge process allows us to create intricate and complex shapes with unmatched accuracy, working with all electrically conductive materials, including Alumel, Chromel, Kovar, Inconel, Titanium, Stainless Steel, CRS, Copper, Nickel, and other challenging-to-machine alloys. Perfect for applications requiring tight tolerances and superior surface finishes, our Wire EDM capabilities ensure every tool, die, and component is crafted to exacting standards of performance and durability. Supporting industries that demand precision, reliability, and efficiency, MSK Precision Products delivers excellence in every part we produce.

Wire EDM for Production Runs

  • Manufacture parts as large as 12 x 12 x 8”

  • Produce parts with inside corner radii as sharp as .003”

  • No limitation on outside corner radii sharpness

  • Any electrically conductive materials, including Alumel, Chromel, Kovar, Inconel, Titanium, Stainless Steel, CRS, Copper, and Nickel.

Create Complex Feature's

Create complex features with Wire EDM to achieve precise, intricate geometries and tight tolerances. Ideal for tool and die making or critical metal components, Wire EDM delivers sharp corners, fine details, and complex shapes with high accuracy on diverse materials, meeting even the most challenging design requirements.

EDm Advantages

  • High Precision: Achieves tight tolerances and intricate shapes, ideal for complex components.
  • Material Versatility: Effectively machines any electrically conductive material which includes hard-to-cut materials like stainless steel, Inconel, and titanium
  • Complex Geometries: Creates intricate features, sharp corners, fine details and finishes, which are not are not possible with conventional machining.
  • Minimal Distortion: The process generates little to no heat, reducing thermal distortion and preserving material integrity.
  • Consistent Quality: Provides a smooth, fine finish and reliable, repeatable results across large production runs.