---
term: "Brinell Hardness"
category: "material-testing"
shortDefinition: "Indentation hardness from a hardened steel or tungsten carbide ball indenter and applied force, evaluated by measuring the impression diameter and computing HBW or legacy BHN."
formula: "HBW = 0.102 × 2F / (πD(D − √(D² − d²)))"
relatedStandards: ["ISO 6506-1"]
url: "https://vectorbtc.com.tr/resources/glossary/brinell-hardness/"
---

**Brinell hardness** characterizes materials that are **too coarse, too soft, or too heterogeneous** for reliable Rockwell or superficial testing on small impressions. A spherical indenter spreads load over a relatively large area, averaging over multiple grains and second phases, which makes Brinell attractive for castings, forgings, and as-cast aluminum.

After applying the test force for the specified time, operators measure two perpendicular diameters of the spherical cap impression and average them. **HBW** denotes Brinell hardness using a **tungsten carbide ball**; older **HBS** (steel ball) designations should not be mixed with modern results because ball deformation changes the stress field.

Because impressions are large, Brinell requires **thick, well-supported specimens** and flat, machined surfaces. Edge distance and spacing between adjacent impressions must satisfy minimum multiples of indentation diameter to avoid work-hardened zones influencing neighboring tests.

Automated Brinell systems use **integrated optics or scanning** to measure diameter repeatably and reduce parallax error. For very soft metals, lower test forces and larger balls may be specified to keep impression diameters within the valid range defined in ISO 6506-1.

Brinell results correlate with tensile strength for some steels through empirical relationships, but such conversions are material-specific and must never replace direct tensile tests for structural design.