![]() ![]() So every part must meet every specification, all along the line. Customers - particularly in aerospace, automotive, and other critical industries and applications - demand tight QC at every step of the supply chain. White Paper: High-Precision Analysis of Small Parts for Aerospace and Automotive Applicationsįor quality control and production managers of metalworking manufacturers, small parts can present a real challenge.Using this approach, results are comparable to those achieved by techniques such as combustion analysis. New developments in OES technology incorporated in the SPECTROLAB and SPECTROMAXx from SPECTRO Analytical Instruments make it possible to detect and even analyze samples containing free graphite. These errors can only be overcome by perfect sample preparation techniques, but a high degree of skill and experience is required to achieve reproducible and reliable results. When measuring carbon in cast iron, however, this method can be prone to errors traceable to the granular nature of the material and to the presence of particles of “free” carbon in the form of graphite. One of the most popular is Optical Emission Spectrometry (OES) using an electric spark source. A few tenths of a percent difference in carbon content can have a dramatic effect on the mechanical properties of iron and steel, so its accurate measurement is critical to ferrous metallurgy.Ĭhemical and spectroscopic methods have been developed for the measurement of carbon in iron and steel. It can also be truthfully said that without carbon there would be no cast iron or steel, as it has been the reducing agent used to liberate metallic iron from its ores since the earliest times. The development of ferrous metallurgy is inextricably linked to the advance of civilization. The optional SPECTRO PROTEKT Global Remote Monitoring Service safeguards the performance and productivity of your analyzer - via continuous remote monitoring of warning and error messages generated by your instrument’s key components. It dynamically determines the measurement time required based on the given sample properties and even shows when the spark stand needs to be cleaned depending on the type of samples being examined. The SPECTROMAXx arc/spark OES metal analyzer independently monitors all operating parameters. With the application profiles, customer specific information can be set before beginning operation, relieving laboratory technicians of administrative activities. Once a workflow has been started, only the functions that are logical at any point in time along the way are active in the control software – all other commands are hidden. The measurement is controlled with clear symbols and toolbar buttons. It features truly intuitive operation, with the use of toolbar buttons, a user management system, and a clear separation of operation from programming of the instrument. Example: for iron, aluminum, and copper matrices, the analyzer improves on its already impressive performance with 30% to 40% better LODs. The tenth-generation SPECTROMAXx features completely new factory calibrations, with extended calibration ranges and element selections optimized source excitation parameters and improved limits of detection (LODs). It also provides drastically reduced cost of ownership - with lower consumables plus advanced diagnostics and easy maintenance to increase availability and prevent expensive downtime. Users get ultrafast information, and can react rapidly to changing process conditions. Like its predecessors, this tenth-generation SPECTROMAXx (LMX10) furnishes outstanding speed. Its fast, accurate, cost-effective measurements add essential certainty in critical supply chains worldwide. Its record of reliability has helped make SPECTROMAXx perhaps the industry’s best-selling arc/spark optical emission spectrometry (OES) analyzer. For over a decade, one instrument has routinely delivered just that. Ideal for routine analysis and precise analysis of all incoming/outgoing materials and for process control (including nitrogen) in foundries - covering 10 matrices, 65 methods and 59 elementsįrom incoming materials to in-process testing to final inspection for outgoing quality, metal producing and fabricating plants demand advanced elemental analysis.Up to 64% reduced argon consumption during standby, compared to previous models.30% to 40% improved detection limits compared to its predecessor (example: iron, aluminum and copper base). ![]() Unique iCAL 2.0 one sample standardization helps maintain the same standardization - regardless of most temperature shifts and saves on average 30 minutes per day. ![]()
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