Kiwa Polymer Institut GmbH Quellenstraße 3 D-65439 Flörsheim-Wicker Tel. +49 (0)61 45-5 97 10 Fax +49 (0)61 45-5 97 19 www.kiwa.de Test report P 8464-2-E Testing order: Tests on the coating Wecryl 124 from the test programme in accordance with DIN EN 1504-2 Products and systems for the protection and repair of concrete structures Definitions, requirements, quality control and evaluation of conformity Part 2: Surface protection systems for concrete, June 2006 Customer: Person in charge: WestWood Kunststofftechnik AG Baarerstrasse 57 CH-6304 Zug Switzerland J. Magner Dipl.-Ing. (FH) N. Machill Period of testing: 08/2013 to 09/2013 Date of the test report: 2013-09-06 This test report comprises: 13 pages including Annex 1 The test results exclusively refer to the tested materials. The publication of the test report in extracts and references to tests for advertising purposes require our written agreement in each single case.
Page - 2 - of 13 pages to the test report P 8464-2-E C O N T E N T S 1 SUBJECT... 3 2 RECEIPT OF TEST SPECIMENS... 4 3 DESCRIPTION OF THE TEST SPECIMENS... 4 4 TESTS... 5 4.1 Abrasion resistance... 6 4.2 Carbon dioxide permeability... 7 4.3 Water-vapour permeability... 8 4.4 Capillary water absorption and liquid water permeability... 8 4.5 Resistance to chemicals... 9 4.6 Impact resistance... 10 4.7 Pull-off test... 11 5 SUMMARY... 12 Annex 1 Summary of the test results...13
Page - 3 - of 13 pages to the test report P 8464-2-E 1 SUBJECT Polymer Institut has been charged by the WestWood AG, Zug, Switzerland to carry out tests on the coating system described below Wecryl 124 from the test programme in accordance with DIN EN 1504-2 Products and systems for the protection and repair of concrete structures - Definitions, requirements, quality control and evaluation of conformity - Part 2: Surface protection systems for concrete, June 2006. In accordance with the customer s information the coating to be tested Wecryl 124 consists on the basis of the following materials or is used for the following system: Table 1: Description of the materials and the system Material Description 1) Wecryl 124 two-component, resin (component A) filled with 35 % by mass of component B 1) in accordance with the customer s information Extent of the tests The selected tests have been carried out on the test specimens in accordance with table 5 of DIN EN 1504-2 Products and systems for the protection and repair of concrete structures - Definitions, requirements, quality control and evaluation of conformity - Part 2: Surface protection systems for concrete. Annex/requirement A summarizing evaluation of the coating system in regard to the requirements of DIN EN 1504-2 is to be taken from Annex 1.
Page - 4 - of 13 pages to the test report P 8464-2-E 2 RECEIPT OF TEST SPECIMENS The test specimens given in the following table were delivered to the Polymer Institut by a forwarding agency. Table 2: Receipt of test specimens, coated substrates No. Coated test specimens Dimensions (l x b) [mm] No. 1 Lime sand bricks 240 x 115 3 2 Fibre cement slab 400 x 300 1 3 Free film 480 x 300 2 4 Steel panel 100 x 100 3 5 Concrete slab 400 x 400 1 3 DESCRIPTION OF THE TEST SPECIMENS The test specimens have been prepared on the premises of the WestWood Kunststofftechnik AG, Zug, Switzerland, by one of the customer s employees in horizontal position. In accordance with the customer s information the coating of the test pieces has been prepared under the customer s supervision in accordance with the following table. Table 3: Coating of the substrates Substrates Layer/film Consumption in [g/m²] - Mean values - Concrete slab Fibre cement slab Lime sand brick Free film Steel panel Paving slab Priming coat 65 % Wecryl 124, component A 35 % Wecryl 124, component B 1 % BPO hardening powder on total About 900-1200 Information on the coating temperature, the application tool, and the storage conditions after completing the application are not available for the Polymer Institut.
Page - 5 - of 13 pages to the test report P 8464-2-E Table 4: Used substrates Test Substrate Dimensions (l x b ) Abrasion resistance Steel panel 100 mm x 100 mm Carbon dioxide / water-vapour permeability Free films Ø 90 mm Capillary water absorption Lime sand bricks 240 mm x 115 mm Tensile bond strength Resistance to chemicals Concrete slabs MC (0,40) Fibre cement slabs in accordance with DIN EN 1766 cut to the respective dimension of the test specimen 4 TESTS The selected tests have been carried out on the test specimens in accordance with table 5 of DIN EN 1504-2 Products and systems for the protection and repair of concrete structures - Definitions, requirements, quality control and evaluation of conformity - Part 2: Surface protection systems for concrete. Type of test Test method 1) 4.1 Abrasion resistance DIN EN ISO 5470-1 4.2 CO 2 permeability DIN EN 1062-6 4.3 Water-vapour permeability DIN EN ISO 7783 4.4 Capillary water absorption and liquid water permeability DIN EN 1062-3 4.5 Resistance to chemicals DIN EN 13529 4.6 Impact resistance DIN EN ISO 6272-1 4.7 Pull-off test DIN EN 1542 1) in accordance with table 5 of DIN EN 1504-2
Page - 6 - of 13 pages to the test report P 8464-2-E For the evaluation of cracks, blisters, or delaminations the characteristic values in accordance with DIN EN ISO 4628 ff Paints and varnishes - Evaluation of degradation of coatings - Designation of quantity and size of defects, and of intensity of uniform changes in appearance have been taken into account: Part 1: Part 2: Part 4: General introduction and designation system Assessment of the quantity of defects: 0 = none and 5 = dense Assessment of the size of defects: 0 = not visible and 5 = larger than 5 mm Assessment of the intensity of change: (gloss, colour, swelling, shrinking) 0 = unchanged and 5 = severe Assessment of degree of blistering 0(S0) = none and 5(S5) = dense (maximum size) blisters Assessment of degree of cracking 0 = not visible and 5 = many and large cracks 4.1 Abrasion resistance The test has been carried out on the steel panels which have been coated in accordance with clause 3 of this test report. The abrasion resistance was determined using the abrading wheel method in accordance with DIN EN ISO 5470-1:09-1999 with the following test parameters: Test device: Taber Abraser in accordance with ASTM D 4060 Abrading wheel: H 22 in accordance with DIN V 18026 Load: 1.000 g The total rotational speed was 1000 in each case at a frequency f = 1 Hz. The determination of the abraded quantity was carried out after 1000 revolutions by weighing the slabs with an accuracy of 10 mg. The abrading wheels have been cleaned with pressurized air after 500 revolutions. Result: The loss by abrasion of the coating system mentioned above after 500 or 1.000 revolutions is: Table 5: Loss by abrasion after Taber with abrading wheel H 22 of Wecryl 124 Loss by abrasion [mg] No. after 500 R after 1000 R Single values Mean value Single values Mean value 1 460 840 2 370 420 640 780 3 470 850
Page - 7 - of 13 pages to the test report P 8464-2-E 4.2 Carbon dioxide permeability The determination of the carbon dioxide permeability was carried out in accordance with DIN EN 1062-6:10-2002 Paints and varnishes - Coating materials and coating systems for exterior masonry and concrete - Part 6: Determination of carbon dioxide permeability, method A - gravimetric method in an atmosphere with a CO 2 content of (10 ±0,5) vol. %. After the receipt of the test specimens in the Polymer Institut the test specimens have been stored for at least 7 days at standard conditions in accordance with DIN EN 23270 until testing. Subsequently, three test pieces (diameter 90 mm) have been drilled out of the free films in accordance with clause 3 of the test report. For the diffusion measurement the test specimens have been exposed in an atmosphere with a CO 2 content of (10 ± 0,5) % at 23 C. The atmosphere has been dried using phosphorus pentoxide. The containers with the test specimens have been weighed regularly to 0,1 mg until the change of mass was linear with time (steady state). At the same time the diffusion resistance to CO 2 of a reference foil was determined. The dry film thickness of the test specimens was determined by means of a light microscope and attached measuring table. Results The test specimens have been tested over a measuring period of 9 days. The mass differences of the weighings were below the level of significance of the measuring method for all of the systems. During measurement carried out at the same time on the reference foil no deviations from the specified tolerance were determined. For the tested system the following characteristic values result from the limit values of the measuring method: Table 6 : Characteristic values carbon dioxide diffusion (mean value) System CO 2 diffusion rate i [g/(m² x d)] Diffusion equivalent air layer thickness s D (CO 2 ) 1) [m] Wecryl 124 < 0,1 > 2.500 1) rounded to two value-indicating digits The total film thickness of the coating system was 1330 µm.
Page - 8 - of 13 pages to the test report P 8464-2-E 4.3 Water-vapour permeability The determination of the water-vapour transmission properties was carried out in accordance with DIN EN ISO 7783: 02-2012 Paints and varnishes - Determination of water-vapour transmission properties - Cup method for free films with the humid condition method 23-50/95. A saturated ammonium dihydrogen phosphate solution was used for achieving a relative humidity of 93 % at 23 C. After the receipt of the test specimens in the Polymer Institut the test specimens have been stored for at least 7 days at standard conditions in accordance with DIN EN 23270 until testing. Subsequently, 3 test pieces (diameter 90 mm) have been drilled out of the free films in accordance with clause 3 of the test report. Result: The determination of the water-vapour permeability was carried out over a measuring period of 7 days. The evaluation corresponded to clause 8 of the standard mentioned above. The results are to be taken from table 7: Table 7: Characteristic values of the water-vapour diffusion (mean value) system of Wecryl 124 H 2 O diffusion rate V [g/m 2 x d] Diffusion equivalent air layer thickness s D (H 2 O) [m] Classification 1) 0,58 36 Class II 1) in accordance with DIN EN ISO 7783 The total film thickness of the coating system is 1590 µm. 4.4 Capillary water absorption and liquid water permeability The determination of the water absorption coefficient was carried out in accordance with DIN EN 1062-3:04-2008 on three coated lime sand bricks in accordance with clause 3 of this test report. Until testing the test specimens have been stored for at least 7 days under standard conditions in accordance with DIN EN 23270. Subsequently, the sides of the test specimens have been waterproofed by means of a transparent, solvent-free epoxy resin. The results are to be taken from the following table. Table 8: Results Water absorption coefficient system of Wecryl 124 Water absorption coefficient ω 24 [kg/(m² x h 0, 5 )] Single values Mean value 0,003 ; 0,001 ; 0,002 0,002
Page - 9 - of 13 pages to the test report P 8464-2-E 4.5 Resistance to chemicals The test of the resistance to chemicals has been carried out in accordance with DIN EN 13529:12-2003 Products and systems for the protection and repair of concrete structures - Test methods - Resistance to severe chemical attack on a fibre cement slab which has been coated in accordance with clause 3 of this test report. The duration of pre-storage of the coated test specimens under standard conditions in accordance with DIN 23270 was 7 days. The test has been carried out in the form of stressing the coatings with test liquid on one side without pressure. The test temperature was 23 C and the exposure time was 3 days. Test liquids have been used which are listed in Oberflächenschutzsysteme für Beton in LAU-Anlagen (surface protection systems for concrete in plants storing, filling, or handling substances hazardous to water (LAU plants)) of the DIBt (German Institute for Construction Engineering), July 2005: Table 9: Chemical group and test liquid DIBt 1 3 10 11 Group Petrol, premium and regular (in accordance with DIN EN 228:2004-03) with a maximum of 5 vol. % bioalcohol content (in accordance with DIN EN 15376:2009-11) - Fuel EL (in accordance with DIN 51603-1) - Unused combustion engine oils - Unused vehicle gear oils - Compounds of saturated and aromatic hydrocarbons with an aromatics content of 20 % by mass and a flashing point of > 55 C Inorganic acids (mineral acids) up to 20 % as well as acidic hydrolysing, inorganic salts in aqueous solution (ph< 6), except hydrofluoric acid and oxidising acids and their salts Inorganic bases as well as alkaline hydrolysing, inorganic salts in aqueous solution (ph > 8), except ammonium hydroxide solutions and oxidising solutions of salts (e. g. hypochlorite) Test liquid 47,5 vol. % toluene 30,4 vol. % isooctane 17,1 vol. % n-heptane 3,0 vol. % methanol 2,0 vol. % tert-butanol Test compound F (DIN ISO 1817) consisting of: 80 vol. % n-paraffin (C12- C18) 20 vol. % 1-methylnaphthalene Sulphuric acid (20 %) Sodium hydroxide solution (20 %) After the end of the exposure time the coatings have been examined in regard to resistance to the test liquids. The following has been recorded: Visual changes of the surface of the coating (gloss, colour, cracking, blistering, swelling, and shrinking) and The hardness by testing the Buchholz hardness in accordance with DIN EN ISO 2815:10-2003.
Page - 10 - of 13 pages to the test report P 8464-2-E Table 10: Resistance to chemicals system of Wecryl 124 Test liquid DIBt No. 1 No. 3 No. 10 No. 11 Criteria Exposure time [d] 3 Gloss 2 0 0 0 Colour 1 0 0 0 Cracking 0 (S0) 0 (S0) 0 (S0) 0 (S0) Degree of blistering 0 (S0) 0 (S0) 0 (S0) 0(S0) Swelling 0 0 0 0 Shrinking 0 0 0 0 Loss of adhesion no no no no Watertightness yes yes yes yes Indentation resistance in accordance with Buchholz after 24 h of reconditioning at standard conditions Change 1) [%] 1) 101-21,7 108-16,3 Referring to the zero value without exposure of indentation resistance in accordance with Buchholz 129 132 +2,3 112-13,2 4.6 Impact resistance The test of the impact resistance has been carried out on concrete slabs which have been coated in accordance with clause 3 of this test report. The test has been carried out in accordance with DIN EN ISO 6272-1:11-2011 Paints and varnishes - Rapid-deformation (impact resistance) tests - Part 1: Falling-weight test, large-area indenter with a drop energy of 4 Nm. 5 single tests have been carried out. Subsequently, a visual evaluation has been carried out under a microscope with 10 x magnification. Result: After the impact test with a drop energy of 4 Nm the coating Wecryl 124 showed no cracks or chipping.
Page - 11 - of 13 pages to the test report P 8464-2-E 4.7 Pull-off test The pull-off test has been carried out in accordance with DIN EN 1542 Products and systems for the protection and repair of concrete structures - Test methods - Measurement of bond strength by pull-off : July 1999. For this, steel cylinders (Ø 50 ± 0,5 mm and thickness 30 mm) were adhered to the coating using a solvent-free two-component polyurethane adhesive. The pull-off tests have been carried out by means of a calibrated tensile tester of the Freundl company, Type Easy-M, under constant load increase of 100 N/s. After the receipt of the test specimens in the Polymer Institut the conditioning of the test specimens until testing has been carried out under standard conditions (T NORM ) in accordance with DIN EN 23270. Table 11: Tensile bond strength after storage at T NORM system of Wecryl 124 Test specimen 1 Tensile bond strength [MPa] Single values 4,42 4,35 4,09 4,89 4,15 Mean value 4,4 Lowest single value 4,1 Failure area [%] A 100 % cohesion failure in the concrete
Page - 12 - of 13 pages to the test report P 8464-2-E 5 SUMMARY Polymer Institut has been charged by the WestWood Kunststofftechnik AG, Zug, Switzerland, to carry out tests on the coating described below Wecryl 124 from the test programme in accordance with DIN EN 1504-2 Products and systems for the protection and repair of concrete structures - Definitions, requirements, quality control and evaluation of conformity - Part 2: Surface protection systems for concrete, June 2006. The following tests have been carried out: Type of test Test method 1) Abrasion resistance DIN EN ISO 5470-1 CO 2 permeability DIN EN 1062-6 Water-vapour permeability DIN EN ISO 7783 Capillary water absorption and liquid water permeability DIN EN 1062-3 Resistance to chemicals DIN EN ISO 2812-1 Impact resistance DIN EN ISO 6272-1 Pull-off test DIN EN 1542 A summary of the test results and a comparison to the requirements of DIN EN 1504-2 is given in Annex 1. Flörsheim-Wicker, 2013-09-06 Head of the institute Person in charge J. Magner Dipl.-Ing. (FH) N. Machill
Page - 13 - of 13 pages to the test report P 8464-2-E Annex 1 Summary of the test results Subclause in the report Test Wecryl 124 Requirement DIN EN 1504-2 / class Req. fulfilled? 4 Tests on the composite specimens 4.1 Abrasion resistance [mg/1000] 780 3000 yes 4.2 Carbon dioxide permeability s D CO 2 [m] >2.500 > 50 4.3 Water-vapour permeability s D H 2 O [m] 36 class I: s D < 5 m class II: 5 m s D 50m class III: s D > 50 m 4.4 Water absorption coefficient [kg/(m² x h 0,5 )] 0,002 < 0,1 4.5 Resistance to chemicals DIBt Nr. 1 Degree of blistering Indentation resistance in accordance with Buchholz 1) [%] DIBt Nr. 3 Degree of blistering Indentation resistance in accordance with Buchholz 1) [%] DIBt Nr. 10 Degree of blistering Indentation resistance in accordance with Buchholz 1) [%] DIBt Nr. 11 Degree of blistering Indentation resistance in accordance with Buchholz 1) [%] 4.6 Impact resistance (4 Nm) Cracks Delaminations 4.7 Pull-off test - Mean value [N/mm²] - Lowest single value [N/mm²] 0(S0) -21,7 0(S0) -16,3 0(S0) +2,3 0(S0) -13,2 none none 4,4 4,1 decrease of hardness by less than 50 % none none 1,0 (without traffic stress) 2,0 (with traffic stress) 0,7 (without traffic stress) 1,5 (with traffic stress) 1) after 24 hours of reconditioning under standard conditions in accordance with DIN EN 23270 yes class ii yes yes yes yes