Skip to content Skip to sidebar Skip to footer

Concrete Flexural Strength Test (EN 12390-5 / ASTM C78): Method & Apparatus

Fully Automatic Flexural Testing Machine for FIBER-REINFORCED Concrete 300kN

Written by the NL Scientific Engineering Team · Reviewed by our ISO/IEC 17025 (SAMM 835) accredited calibration laboratory · Last updated 11 July 2026

The concrete flexural strength test determines the modulus of rupture of a hardened concrete beam — the tensile strength of concrete in bending. It is the reference test for pavement and airfield slab design, where slabs fail in flexure rather than compression.

What the Test Measures

A prismatic beam specimen (typically 100×100×500 mm or 150×150×750 mm) is loaded until failure using centre-point or third-point loading. The stress at rupture in the extreme fibre is reported as flexural strength, usually 10–15% of the compressive strength.

Apparatus Required

  • Flexural testing machine or flexural frame attachment with two support rollers and one or two loading rollers
  • Beam moulds (100 or 150 mm square section) and compaction equipment
  • Steel rule and square for locating rollers
  • Curing tank maintained at 20 ± 2 °C (EN) or 23 ± 2 °C (ASTM)

Test Procedure

  1. Cast and cure beam specimens; test saturated, immediately after removal from curing.
  2. Mark support and load positions; centre the beam on the rollers with the trowelled face out of contact.
  3. Apply load without shock at a constant stress rate of 0.04–0.06 MPa/s (EN 12390-5) until rupture.
  4. Record maximum load and the fracture position.

Calculation & Reporting

For third-point loading with fracture inside the middle third: fcf = F·L / (b·d²), where F is the maximum load, L the span, and b, d the section dimensions. Report to the nearest 0.1 MPa with specimen size, curing regime and fracture location.

Acceptance Criteria

Typical structural concrete achieves 3–5 MPa flexural strength at 28 days; rigid pavement specifications commonly require a characteristic value of 4.0–4.5 MPa. If fracture falls outside the middle third by more than 5% of the span (third-point method), the result is discarded.

Frequently Asked Questions

Centre-point or third-point loading — which should I use?

Third-point loading (ASTM C78, EN 12390-5) stresses the whole middle third equally and gives more representative, slightly lower values than centre-point loading (ASTM C293), which forces failure at one section. Specify the method when reporting.

Can flexural strength be estimated from compressive strength?

Only approximately — correlations such as 0.7√f’c are mix-specific. Pavement acceptance should always use measured beam results, not converted cube or cylinder values.

Recommended Apparatus

NL Scientific manufactures the Fully Automatic Flexural Testing Machine for FIBER-REINFORCED Concrete 300kN for this method. Browse the full Concrete Testing Equipment range or request a quotation from our engineers.