Litcius/Paper detail

Novel nanoindentation strain rate sweep method for continuously investigating the strain rate sensitivity of materials at the nanoscale

Hendrik Holz, Benoit Merle

2023Materials & Design19 citationsDOIOpen Access PDF

Abstract

We introduce a new nanoindentation method to continuously measure the hardness while sweeping through orders of magnitudes of strain rates within a single experiment. While nanoindentation already allows the determination of the strain rate sensitivity of materials by means of strain rate jump tests, these are typically limited to few discrete strain rates. With the new method, the strain rate sensitivity can be measured continuously as a function of the strain rate. Applications to fused silica, Zn-22%Al superplastic alloy, single crystalline aluminum, various nanocrystalline metals and a palladium-based metallic glass are shown. Besides some discrepancy with the reference measurements, the new method seems only affected by the presence of a strong nanoindentation size effect. Provided this indentation size effect is not excessively large and can be corrected for accurately, the method proves robust, with no suggestion that the direction of the strain rate sweep affects the evaluation of the strain rate sensitivity.

Topics & Concepts

NanoindentationMaterials scienceStrain rateSuperplasticityNanocrystalline materialIndentationSensitivity (control systems)Strain (injury)Composite materialDeformation (meteorology)Slow strain rate testingAlloyMetallurgyNanotechnologyElectronic engineeringStress corrosion crackingMedicineEngineeringInternal medicineMetal and Thin Film MechanicsDiamond and Carbon-based Materials ResearchAdvanced materials and composites