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Communication Dans Un Congrès Année : 2019

Scratch resistance of floor covering surfaces

Résumé

Floor covering are daily submitted to various mechanical solicitations: walking, rolling chairs, furniture feet indentation, sliding objects, cleaning devices etc. All these solicitations are liable to cause wear of the product, which negatively impacts its visual aspect. A wear mechanism which is particularly severe is the scratch. The aim of this project is to identify which kinds of scratches have a high optical influence and to prevent them. The final objective is to optimize the material (rheology, structure…) to increase its scratch resistance. Scratch tests have been performed on a material composed with a plasticized PVC substrate covered by an anti-scratch polyurethane coating. These tests are observed in situ thanks to a microscope coupled to a camera. Depending on the scratch test conditions (tip radius, normal force, temperature…), different deformation regimes (elastic, elastoplastic, plastic) and 3 different failure mechanisms are observed (figure 1). These mechanisms do not have the same optical influence: for example a ductile scratch is almost invisible by naked eye, even with the shallow and short lateral cracks (1 st mechanism), whereas a scratch with delamination (3 rd mechanism) is very visible because of a whitening of the material. In order to understand the local mechanical conditions during these tests, a numerical model of scratching has been developed. As shown in figure 2 the case of high load/indentation depth is clearly similar to failure mechanism 2. A variety of scratching conditions will be presented and analyzed, the strain and stress fields correlated with the corresponding failure mode. REFERENCES [1] J.-L. Bucaille, E.Felder, G.Hochstetter. Mechanical analysis of the scratch test on elastic and perfectly plastic materials with the three-dimensional finite element modeling. Wear 249 (2001) 422-432 [2] I. Demirci, C. Gauthier, R. Schirrer. Mechanical analysis of the damage of a thin polymeric coating during scratching: role of the coating thickness to the roughness of a scratching tip. Thin solid films 479 (2005) 207-215 [3] S.J. Bull. Failure mode maps in the thin film scratch adhesion test. Tribology Int. 30, 7 (1997) 491-49 Figure 2 : Numerical simulation of a scratch test, max principal stress (MPa).
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Dates et versions

hal-02334044 , version 1 (19-12-2019)

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  • HAL Id : hal-02334044 , version 1

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Benoît Wittmann, Christian Gauthier, Alain Burr, Jean-François Agassant, Pierre Montmitonnet. Scratch resistance of floor covering surfaces. 46th Leeds-Lyon Symposium on Tribology, Sep 2019, Lyon, France. ⟨hal-02334044⟩
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