B. Wolf scite author profile

Since in-depth sensing indentation load-depth data of the entire loading-unloading cycle are available, more information than a single hardness value and an elastic modulus can be extracted from the experimental data. The conventional hardness H (h) = F (h)/A C (h) and the differential hardness H d (h)= dF /dA C are calculated as continuous functions of depth h and compared to each other in this paper (F : load, A C : contact area). It turns out that H d describes the momentary material resistance to deformation, whereas H integrates over deformation states from first tip-sample contact to current penetration h. This difference is particularly important for materials not homogeneous in depth (e.g. layer systems), and for situations where time-dependent external factors influence the momentary deformation resistance. Photoplasticity is considered as an example for the latter. Contents

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Implementing Gamification: Requirements and Gamification Platforms

Herzig¹,

Ameling²,

Wolf³

et al. 2014

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B. Wolf

Defect generation and pileup of atoms during nanoindentation of Fe single crystals

Nanoscale mechanical properties of polymers irradiated by UV

Nanoindentation of diamond, graphite and fullerene films

The concept of differential hardness in depth sensing indentation

Implementing Gamification: Requirements and Gamification Platforms

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