ISO 14577-1:2026

مواصفة قياسية دولية   الإصدار الحالي · اعتمدت بتاريخ ١٦ يونيو ٢٠٢٦

Metallic materials — Instrumented indentation test for hardness and materials parameters — Part 1: Test method

ملفات الوثيقة ISO 14577-1:2026

الإنجليزية 44 صفحات
الإصدار الحالي
BHD 84.67

مجال الوثيقة ISO 14577-1:2026

This document specifies the method of instrumented indentation test for determination of hardness and other materials parameters for the following three ranges:

  • macro range: 2 N ≤ F ≤ 30 kN;
  • micro range: 2 N > F; h > 0,2 µm;
  • nano range: h ≤ 0,2 µm.

For the nano range, the mechanical deformation strongly depends on the real shape of indenter tip and the calculated material parameters are significantly influenced by the contact area function of the indenter used in the testing machine. Therefore, careful calibration of both instrument and indenter shape is required in order to achieve an acceptable reproducibility of the materials parameters determined with different machines.

The macro and micro ranges are distinguished by the test forces in relation to the indentation depth.

Attention is drawn to the fact that the micro range has an upper limit given by the test force (2 N) and a lower limit given by the indentation depth of 0,2 µm.

The determination of hardness and other material parameters is given in the normative Annex A.

At high contact pressures, damage to the indenter is possible. For test pieces with very high hardness and modulus of elasticity, permanent indenter deformation can occur and can be detected using suitable reference materials. Indentations that result in damage or permanent deformation of the indenter are excluded from the scope of this test method.

This test method can also be applied to thin metallic and non-metallic coatings and non-metallic materials. In this case, it is recommended that the specifications in the relevant standards be taken into account (see also 7.3 and ISO 14577-4).

The analysis methods of this standard assume that materials behave like ideal materials. Any deviation (internal stress, pile-up, sink-in, densification, phase transitions, cracks) will result in additional uncertainties. This becomes especially important if comparisons shall be done to material parameters, obtained with other methods.

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