Atomic Emission Spectroscopy can determine elemental content of solid conductive materials. The GDS900 is designed to analyze ferrous and nonferrous metals, including cast iron.
Learn more with our latest Glow Discharge application notes.
Atomic Emission Spectroscopy can determine elemental content of solid conductive materials. The GDS900 is designed to analyze ferrous and nonferrous metals, including cast iron.
Glow discharge spectrometry (GDS) is capable of analyzing all types of cast irons while other techniques, especially spark-emission spectrometry, commonly struggle in this area.
Hot dip galvanization is an important passivation process in which steel is coated with a thin zinc layer thereby protecting it from harmful environments that lead to corrosion.
Glow Discharge Spectroscopy Application Snapshot: Analysis of tin-based lead-free Solder by LECO GDS500
Aluminum alloys can be divided into two major groups: cast alloys and wrought alloys.
Watch our most recent videos on Glow Discharge.
Precise measurement of carbon in carburized steel can be challenging due to changing concentrations throughout the hardened case of a sample. Glow discharge spectroscopy (GDS) offers a repeatable ability to measure carbon in a region spatially discrete from organic carbon on the near surface and in the base material. The presentation includes comparisons to other measurements, relationships to microhardness measurements, and characterization of the materials with GDS compositional depth profiles and bulk analyses. Andrew Storey, Field Sales Specialist, LECO Corporation
