Astm E562-19e1 ~upd~ May 2026

[ s = \sqrt\frac\sum (\barV_V - V_V(field))^2n-1 ]

[ \barV_V = \frac\sum V_V(field)n ]

The answer to these questions often lies in a statistical, yet surprisingly simple, technique known as . The definitive standard governing this method is ASTM E562-19e1 : Standard Test Method for Determining Volume Fraction by Systematic Manual Point Count . astm e562-19e1

Furthermore, the standard teaches an essential scientific discipline: how to convert qualitative observation into quantitative data with known statistical uncertainty. Whether you are certifying aerospace alloys, validating additive manufacturing porosity, or characterizing geological thin sections, ASTM E562-19e1 provides the rigor you need. [ s = \sqrt\frac\sum (\barV_V - V_V(field))^2n-1 ]

[ A_A \approx P_P = \fracP_pP_t ]

The standard provides tables and a formula (based on the binomial distribution) to determine the total number of point-phase hits needed. For a phase present at 10% volume fraction, you may need 1000–2000 total counts; for 50%, fewer counts are needed. Introduction In the fields of metallurgy, materials science,

Introduction In the fields of metallurgy, materials science, and quality control, understanding the microstructure of a material is not just about identifying phases or grain boundaries—it is often about quantifying them. How much pearlite is present in a steel sample? What percentage of porosity exists in a powder metallurgy component? What is the volume fraction of graphite in cast iron?