Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance
The mechanical properties of coatings strongly influence wood coatings’ performance, as coatings may be stressed by dimensional variations of wood when exposed outdoors. Within the European project SERVOWOOD (2014–2016), the influence of coating formulation on mechanical properties and cracking resi...
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doaj-360456c226ec4da395fa04e1698e7aaf2020-11-25T00:53:00ZengMDPI AGCoatings2079-64122017-09-0171016310.3390/coatings7100163coatings7100163Influence of Coating Formulation on Its Mechanical Properties and Cracking ResistanceLaurence Podgorski0Mari de Meijer1Jean-Denis Lanvin2FCBA Technological Institute, Allée de Boutaut BP227, F-33028 Bordeaux, FranceTeknos Drywood, Hendrik ter Kuilestraat 181, NL-7547 SK Enschede, The NetherlandsFCBA Technological Institute, Allée de Boutaut BP227, F-33028 Bordeaux, FranceThe mechanical properties of coatings strongly influence wood coatings’ performance, as coatings may be stressed by dimensional variations of wood when exposed outdoors. Within the European project SERVOWOOD (2014–2016), the influence of coating formulation on mechanical properties and cracking resistance has been studied. Several acrylic and alkyd formulations with different pigment volume concentrations (PVCs), with and without UV protection have been applied on pine samples and exposed to artificial weathering (EN 927-6) for 12 weeks. Persoz hardness of coatings applied on wood was assessed before and after weathering. Tensile tests on free films have been carried out at −10 °C, 20 °C, and 45 °C. For each formulation, elastic modulus, tensile strength, and strain at break have been determined for the three test temperatures. For each test temperature, there was no correlation between the elastic modulus and strain at break, nor between tensile strength and strain at break. The results showed a relation between Persoz hardness and elastic modulus. The best performing formulation had a mean elastic modulus at room temperature lower than 400 MPa and a mean strain at break higher than 30%.https://www.mdpi.com/2079-6412/7/10/163woodcoatingtensile testelastic modulushardnesscrackingweathering |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Laurence Podgorski Mari de Meijer Jean-Denis Lanvin |
spellingShingle |
Laurence Podgorski Mari de Meijer Jean-Denis Lanvin Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance Coatings wood coating tensile test elastic modulus hardness cracking weathering |
author_facet |
Laurence Podgorski Mari de Meijer Jean-Denis Lanvin |
author_sort |
Laurence Podgorski |
title |
Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance |
title_short |
Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance |
title_full |
Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance |
title_fullStr |
Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance |
title_full_unstemmed |
Influence of Coating Formulation on Its Mechanical Properties and Cracking Resistance |
title_sort |
influence of coating formulation on its mechanical properties and cracking resistance |
publisher |
MDPI AG |
series |
Coatings |
issn |
2079-6412 |
publishDate |
2017-09-01 |
description |
The mechanical properties of coatings strongly influence wood coatings’ performance, as coatings may be stressed by dimensional variations of wood when exposed outdoors. Within the European project SERVOWOOD (2014–2016), the influence of coating formulation on mechanical properties and cracking resistance has been studied. Several acrylic and alkyd formulations with different pigment volume concentrations (PVCs), with and without UV protection have been applied on pine samples and exposed to artificial weathering (EN 927-6) for 12 weeks. Persoz hardness of coatings applied on wood was assessed before and after weathering. Tensile tests on free films have been carried out at −10 °C, 20 °C, and 45 °C. For each formulation, elastic modulus, tensile strength, and strain at break have been determined for the three test temperatures. For each test temperature, there was no correlation between the elastic modulus and strain at break, nor between tensile strength and strain at break. The results showed a relation between Persoz hardness and elastic modulus. The best performing formulation had a mean elastic modulus at room temperature lower than 400 MPa and a mean strain at break higher than 30%. |
topic |
wood coating tensile test elastic modulus hardness cracking weathering |
url |
https://www.mdpi.com/2079-6412/7/10/163 |
work_keys_str_mv |
AT laurencepodgorski influenceofcoatingformulationonitsmechanicalpropertiesandcrackingresistance AT maridemeijer influenceofcoatingformulationonitsmechanicalpropertiesandcrackingresistance AT jeandenislanvin influenceofcoatingformulationonitsmechanicalpropertiesandcrackingresistance |
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