Round Robin into Best Practices for the Determination of Indentation Size Effects
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Identifiers
ISSN: 2079-4991
Publication date
Abstract
The paper presents a statistical study of nanoindentation results obtained in seven
European laboratories that have joined a round robin exercise to assess methods for the evaluation of
indentation size e ects. The study focuses on the characterization of ferritic/martensitic steels T91 and
Eurofer97, envisaged as structural materials for nuclear fission and fusion applications, respectively.
Depth-controlled single cycle measurements at various final indentation depths, force-controlled
single cycle and force-controlled progressive multi-cycle measurements using Berkovich indenters
at room temperature have been combined to calculate the indentation hardness and the elastic
modulus as a function of depth applying the Oliver and Pharr method. Intra- and inter-laboratory
variabilities have been evaluated. Elastic modulus corrections have been applied to the hardness data
to compensate for materials related systematic errors, like pile-up behaviour, which is not accounted
for by the Oliver and Pharr theory, and other sources of instrumental or methodological bias. The
correction modifies the statistical hardness profiles and allows determining more reliable indentation
size e ects.

