Identification of the elasto-viscoplastic parameters for a thermoplastic polymer by instrumented indentation
Type : Publication
Auteur(s) : ,
Année : 2018
Domaine : Génie mécanique
Revue : IOP Conference Series Materials Science and Engineering
Résumé en PDF :
Fulltext en PDF :
Mots clés : Nano-indentation, polymers, inverse computation methods
Auteur(s) : ,
Année : 2018
Domaine : Génie mécanique
Revue : IOP Conference Series Materials Science and Engineering
Résumé en PDF :
Fulltext en PDF :
Mots clés : Nano-indentation, polymers, inverse computation methods
Résumé :
The indentation test is a simple, fast and reliable tool that allows the determination of the materials mechanical properties from experimental load-penetration curves using the inverse computation methods. Through this approach and using the Berkovich indenter, the creep and elasto-plastic properties of the polymers were estimated. Simulations of the elasto-viscoplastic behaviour of the studied polymers under nanoindentation tests were performed. A finite element analysis was carried out to simulate the mechanical behaviour of polymers which can be defined by the Young's modulus E and the parameters (K and n) that describe the materials hardening for large deformations. The obtained functions from the numerical simulations were validated by nanoindentation and compression tests for the studied polymers.