Guidelines for good XRF laboratory practice for the iron ore industry
€329.00
Iron ores. Determination of arsenic content. Hydride generation atomic absorption spectrometric method
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Iron ores. Determination of loss on ignition. Non-oxidised ores
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Iron ores. Wavelength dispersive X-ray fluorescence spectrometers. Determination of precision
Copper, lead, zinc and nickel sulfide concentrates. Determination of arsenic Iron hydroxide concentration inductively coupled plasma atomic emission spectrometric method
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Copper, lead, zinc and nickel sulfide concentrates. Determination of arsenic Acid digestion inductively coupled plasma atomic emission spectrometric method
Copper, lead, zinc and nickel sulfide concentrates. Determination of mass of contained metal in a lot
Zinc sulfide concentrates. Determination of silver content. Acid dissolution and flame atomic absorption spectrometric method
Iron ores. Determination of loss on ignition. Gravimetric method
Direct reduced iron. Determination of apparent density and water absorption of hot briquetted iron (HBI)
Iron ores. Determination of chlorine content. X-ray fluorescence spectrometric method
Iron ores. Sampling and sample preparation procedures
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Copper, lead, zinc and nickel sulfide concentrates. Determination of hygroscopic moisture content of the analysis sample. Gravimetric method
Standard Test Methods for Determination of Iron in Iron Ores and Related Materials by Dichromate Titration
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Standard Test Method for Determination of Silica in Manganese Ores, Iron Ores, and Related Materials by Gravimetry
