ICS 73.060
Metalliferous minerals
6 sub-categories · 3,114 standards
Sub-categories
Standards in This Category
nsBAS ISO 13548:2026
ISBIH
Copper and zinc sulfide concentrates — Determination of fluorine content by sodium hydroxide fusion and fluoride ion selective electrode detection
nsBAS ISO 12744:2026
ISBIH
Copper, lead, zinc and nickel concentrates — Experimental methods for checking the precision of sampling
nsBAS ISO 11456:2026
ISBIH
Copper and zinc sulfide concentrates — Determination of silver content — Acid digestion and flame atomic absorption spectrometric or inductively coupled plasma optical emission spectrometric method
nsBAS ISO/TS 15855:2026
ISBIH
Copper, lead and zinc sulfide concentrates — Step-by-step procedure for the testing of static scales
DZ/T 0515.1-2025
DZ
Chemical analysis methods for precious metal ores - Part 1: Determination of gold, platinum, palladium, rhodium, iridium, osmium and ruthenium content - Fire assay enrichment coupled with inductively coupled plasma mass spectrometry
This standard establishes a specific analytical procedure for determining the content of precious metals in ore samples. The method focuses on the quantitative measurement of gold, platinum,
SM ISO 7215:2024
Iron Ore for Furnace Charging. Determination of Relative Reducibility by the Method of Utilizing the Finite Degree of Recovery Index
This standard establishes a specific methodology for determining the relative reducibility of iron ores intended for blast furnace smelting. The procedure relies on the finite reduction index method,
SM ISO 4695:2024
Iron ores for blast furnace charging. Method for determining reducibility using the degree of recovery index
This technical specification outlines a standardized procedure for determining the reducibility of iron ore concentrates intended for charging blast furnaces. The methodology focuses on utilizing
DZ/T 0394.3-2025
DZ
Chemical Analysis Methods for Uranium Ores - Part 3: Determination of Redox Potential - Potassium Dichromate Oxidation-Potentiometric Difference Method
This technical specification establishes a standardized procedure for determining the redox potential in uranium ore samples. The method utilizes a titration approach based on the oxidation reaction
DZ/T 0512.1-2025
DZ
Chemical Analysis Methods for Antimony Ore - Part 1: Determination of Antimony, Arsenic, Sodium, Magnesium, Aluminum, Potassium, Calcium, Titanium, Manganese and Iron Content - Closed Acid Dissolution-Inductively Coupled Plasma Atomic Emission Spectrometr
This document establishes a standardized procedure for the chemical analysis of stibnite ores, specifically designed for the determination of multiple elemental constituents. The methodology outlined
DZ/T 0513.1-2025
DZ
Chemical Analysis Methods for Zircon Ores — Part 1: Determination of Zirconium, Hafnium, Sodium, Magnesium, Aluminum, Potassium, Calcium, Titanium, Manganese, and Iron Contents — Lithium Metaborate Fusion — Inductively Coupled Plasma Atomic Emission Spect
This specification establishes a standardized methodology for determining the chemical composition of zircon ore, specifically focusing on the quantification of zirconium, hafnium, sodium, magnesium,
SM ISO 2599:2015
Iron Ore. Determination of Phosphorus Content. Titrimetric Method
This document outlines a standardized method for determining the phosphorus content in iron ore using titration techniques. It provides detailed procedures to ensure accuracy and consistency in
DB13/T 6310-2026
DB13
Analysis of 9 Components Including Lithium in Lithium Ore Inductively Coupled Plasma Emission Spectrometry Method
This technical specification establishes a comprehensive methodology for the simultaneous determination of lithium and eight other constituent elements within lithium ore samples. The procedure
GB/T 10322.7-2026
GB
Screening determination of particle size distribution of iron ore and direct reduced iron
This technical specification defines the methodology for determining the particle size distribution of iron ores and direct reduced iron using sieving techniques. The document outlines the required
SM ISO 4695:2014
Iron Ore for Blast Furnace Charge. Determination of Reducibility by Recovery Index Method
This technical specification outlines the methodology for evaluating the reducibility of iron ore fines intended for blast furnace feed. The procedure employs the recovery index method, a
SM ISO 7215:2014
Iron ore for blast furnace charging. Determination of relative reducibility by the finite grade of recovery index method
This document outlines a standardized methodology for assessing the relative reducibility of iron ore materials intended for blast furnace feedstocks. The approach specifically employs a limited
SM GOST 14048.13:2011
Concentrate de zinc. Method for the determination of gold and silver
This technical specification outlines a standardized procedure for determining gold and silver content within zinc concentrate materials. The document establishes specific methodologies and technical
SM GOST 14047.6:2011
Lead concentrate. Gravimetric method for determination of sulfur
This document specifies the analytical procedure for determining the weight percentage of sulfur within lead concentrates using a gravimetric method. The outlined technique involves the dissolution
SM GOST 14047.8:2011
Lead Concentrate. Complexometric Method for Determining Iron
This technical specification outlines a precise analytical procedure for determining iron content within lead concentrates. The method relies on complexometric titration, a classical analytical
SM GOST 14047.7:2011
Concentrate de plumb. Metoda de determinare a cobaltului
This technical specification establishes a standardized procedure for the quantitative determination of cobalt within lead concentrates. The method provides detailed instructions for sample
SM GOST 14047.5:2011
Lead Concentrate: Photometric and Titrimetric Methods for the Determination of Arsenic
This document establishes standardized procedures for the quantitative analysis of lead and arsenic concentrations within concentrated lead samples. It details two primary analytical techniques: a