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A comprehensive guide to Abrasion Resistance

We are confronted with abrasion resistance every day. Whether it is your shiny new bathroom floor that is beginning to fade or a scratch on the case of your new phone or car. Abrasion can ruin a day in a moment. So how do we test and improve our coatings on these appliances to mitigate the chance of this happening? In this article we will discuss what abrasion resistance is, how it relates to other physical properties, and what tools and methods are needed to measure it.


1 Introduction


 

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Immagine 1 Surface scratches on a car (left) and a wall which has been drawn on (right).

2 Factors that affect abrasion resistance


 

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Immagine 2 A scanning electron microscope (SEM) image of a rough surface.

3 How to measure abrasion resistance

3.1    Overview of methods
From the above theory, it should be obvious, that there is no simple way to accurately and reproducibly measure abrasion resistance according to one all-defining method. Each use case has to be specified and tested in a very defined and controlled environment. This led to the development of many different types and methods of measurement. These include, falling sand abrasive tests, air blast abrasive tests, gravel projecting machines, rotating wheel abrasives and wet scrub abrasive methods (Figures 3, 4 and 5). For the purpose of this article, we will focus on rotating wheel method as well as the wet scrub method, which are mostly used in the coatings and (architectural) paints industry.


3.2    Rotating wheel method (Taber abraser)

This test method involves the testing of a sample in the form of a 10.2 cm or 4 inch diameter disc or 10.2 cm or 4 inch square. These are mounted on a turntable, which is rotated at a fixed speed under a weighted abrading wheel (Figure 4). As the turntable rotates, the wheels are moved over the sample in opposite directions about a horizontal axis displaced tangentially from the axis of the sample. One abrading wheel rubs the specimen outward toward the periphery and the other, inward toward the center while a vacuum system removes loose debris during the test. The weight on the abrading wheels can be varied by the use of additional weights and counterweights. The wheels have to be refaced after a specified time of use with the help of a refacing tool in order to refresh and standardize the contact surfaces. The samples are evaluated according to their weight loss after a specified amount of cycles, the taber wear index (which corresponds to the loss of weight times 1000 divided by the number of test cycles) or depth of wear.[5]
Typical substrates include plastics, textiles, coated panels, laminated wood and rubber.


In addition to the weight loss after a set number of cycles, the abrasion resistance can be objectively measured using the BYK-Gardner haze-gard. Especially for plastics, it is important to control and measure the haziness, in order to guarantee the quality and functionality of a product. The taber abrasion test is specified in several international standards such as ASTM D4060, ASTM D1044, DIN 52347, DIN 53109 and many others.

3.3    Wet scrub method (Gardner scrub)

Another method for the determination of the abrasion resistance of coating surfaces is a special wet abrasion scrub tester. Originally used for dispersion paints this method has found considerable acceptance for the testing of automotive solid color top coats. It tests the cleanability and washability of these finishes coats. The instrument is made of a mechanical arm on which several special brushes, sponges or sandpapers can be mounted (Figure 5). This arm is then moved along the substrate surface at a defined speed over a defined number of cycles. Additional scrubbing liquids may be added to further test the abrasion resistance of the sample. 
Several international standards have been established for this method, several of which we will described in detail in the next section. These include the most commonly known ISO 11998, DIN EN 13300, ASTM D2486 and the withdrawn, but still sometimes used, DIN 53778.[6]

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Immagine 3 A falling sand abrasion tester (left) and a Single impact mar tester (right).

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Immagine 4 A taber abrader.

4 International standards for the determination of abrasion resistance using the Gardner scrub

4.1    DIN EN 13300
The DIN EN 13300 standard is a European norm that is used as a system for the classification of water-based paints and varnishes for walls and ceilings in interior areas. These paints and varnishes are classified according to the following four different aesthetic and protective functions.[7]


4.1.1    Wet scrub resistance according to DIN EN ISO 11998
This will be discussed in the next section in more detail.


4.1.2    Gloss
There are four different levels of gloss defined in the DIN EN 13300 standard as seen in Table 1. The measurements are made with a single or multi angle gloss meter on a smooth sample. BYK-Gardner offers a variety of gloss meters, the micro-gloss family, for objective, precise and reliable gloss data. 

 

4.1.3 Hiding power
The hiding power is evaluated by measurement of the opacity of a coated substrate. The higher the value the better the opacity and with it the hiding power (Table 2). These measurements are performed with a spectrophotometer such as the BYK-Gardner spectro2guide. The hiding power is given in % of opacity per m2/L of paint.

 

Table 1: Overview over the four different gloss levels defined in DIN EN 13300, the measurement angle of the gloss meter and the measured gloss unit values.
DescriptionMeasurement angle [°]Value [GU]
Glossy60?60
Semi Gloss60<60
 85?10
Low gloss85<10
Dull low gloss85<5

 

Walls, that are coated with low gloss paint will hide protrusions in the wall easier than glossy coatings will.

Table 2: Overview over the four different classes of hiding power and their respective opacity levels.
ClassOpacity [%]
1?99.5
298?X?99.5
395?X
4<95

 

4.1.4    Maximum fineness of grind
Grind gages are used to indicate the fineness of the grind or the presence of coarse particles or agglomerates in a dispersion. It does not determine particle size distribution. Paints are classified according to their maximum particle size according to Table 3.

Table 3: Overview over the particle sizes and their respective fineness classes according to ISO 1524 (for fine class) and ISO 787-7 or EN ISO 787-18 (for medium to very rough).
ClassParticle size [µm]
Fineup to 100
Mediumup to 300
Roughup to 1500
Very roughover 1500

 

4.2    DIN EN ISO 11998
This standard describes the ability of coatings to withstand wear cause by repeated cleaning operations and their ability to withstand penetration by soiling agents with the use of an automatic scrubbing tester (Figure 6). These properties depend not only on the quality of the coating but also on the substrate. Therefore, the method of application, the drying methods and other factors must be considered in order to obtain repeatable results. The following standards are used to guarantee this repeatability. ISO 1513 and 15528 for the examination and preparation of samples and ISO 3270 for the temperature and humidity control. For further information on these methods refer to the standards themselves.[8]


First, the film has to be applied to the substrate. This is best done via an automatic film applicator such as the byko-drive. The film length must be at least 10 mm longer than the maximum scrub length of the scrub tester while the film width should be at least 60 mm wide. The film thickness has to be so, that after 200 scrub cycles, the substrate is not exposed. The film has then to be dried according to ISO 3270 for the specified period of time. Afterwards, the panel is weighed. The sample is then transferred to the automatic scrub tester and fixated with a clamp.
The washing liquid is a solution of 2.5 g/L of sodium n-dodecylbenzenesulfonate in water which has been allowed to stand to dissipate any air-bubbles or foam that may have formed.
The washing liquid is applied with a soft paint brush and left in contact with the coating for 60 s. Afterwards, the abrasive pad is likewise saturated with washing liquid to a final mass of about 4 g. The abrasive is now fixated on the machine so that the unprinted side is in contact with the coating. The mass of the scrub pad holder which exerts the force on the panel has to be 135 g. The machine is run for 200 cycles at a speed of 37±2 cycles per minute and afterwards the panel is detached, thoroughly rinsed with water, dried, and weighed. 
 

To calculate the loss of coating during the scrubbing process calculate the area traversed by the scrub during operation (Equation 2). Afterwards, calculate the mass loss per area by subtracting the starting weight from the weight after testing. (Equation 3)
A = SW / 106
Equation 2: Calculation for the area traversed by the scouring pad. S = scrub length in mm, W = scrub width in mm.


L = (m- m2) / A
Equation 3: Calculation for the loss in coating mass per area. m1 = initial weight, m2 = weight after testing, A = area traversed by scouring pad.


To calculate the mean loss in film thickness, divide the loss in coating mass per area by the dry film thickness (Equation 4).


L(dft) =  L / p(df)
Equation 4: Calculation for the mean loss in film thickness. L = loss in coating mass per area, p(df) = film thickness in g/cm3.

This mean loss in film thickness is used in DIN EN 13300 to determine the wet scrub resistance class (Table 4). 

Resistance classLdft
1<5 µm at 200 cycles
2?5 µm and <20 µm at 200 cycles
3?20 µm and <70 µm at 200 cycles
4<70 µm at 40 cycles
5?70 µm at 40 cycles

For the testing of the cleanability of a paint, the procedure is identical. The only difference is, that a soiling agent (pencil, crayons, etc.) is applied before the washing liquid is applied (Figure 7). Visual evaluation of the soiled area gives the result. If the soiling agent is fully removed, compare the scrubbed area with a control panel. If it is not fully removed, the coating can be rated in cleanability classes in accordance with another suitable standard. 

 

4.3    ASTM D2486
This standard is used to determine the resistance of wall paints to erosion caused by scrubbing. It describes two different testing methods (Figure 8).[9]

Method A:
Three drawdowns of the sample paint are made on a black plastic panel with a film applicator of 0.18 mm or 7.0 mil gap clearance. This application should take between 3 to 4 seconds. Afterwards the panels are air dried at 23 °C and 50% relative humidity in accordance with D3924 for seven days. Before the scrubbing test can begin, the brush has to be soaked in water overnight and then preconditioned for 400 scrubbing cycles. 
The dried panel is placed onto the scrubbing tester. A brass shim is placed perpendicular to the path of the brush and the panel is fixated onto the machine. The combined weight of the nylon brush and the pad holder must be 454 g. 10 g of scrubbing media are spread over the brushes of the bristle and the brush is placed on one end of the path. Then the panel is wet with 5 mL of water on the path of the brush.
The test is started and run until a continuous thin line of paint film across the width of the shim is visible (Figure 9, right). If no line is visible after 400 cycles, repeat the addition of scrubbing media and run the machine for another 400 cycles and repeat until failure is observable. This whole process is repeated with one more coated panel and if the results differ by more than 30%, a third panel is tested.


Method B:
Is almost identical to method A, however here two panels are tested side by side at the same time. One panel is coated with the test paint and another panel is coated with a reference paint. In the test report the ratio of failure cycles of the test paint in relation to the reference paint are reported in order to determine which paint has the better scrub resistance.


4.4    ECE R43 & ISO 5685
This standard describes the testing of a glazing surface against abrasion by a wiper rubber under the influence of a dust suspension. It is used to determine the abrasion resistance of windshields in normal driving conditions against wind shield wipers. Additional testing like taber abrasion and falling sand tests are described in ECE R43. The evaluation is performed by haze measurement before and after the test using BYK-gardner haze-gard.[10]


4.5    ASTM D3450
This test method determines the ease of removing soilant discoloration from interior coatings. The coating is drawn down on a black plastic panel and allowed to dry for seven days. A specified soilant medium is applied. The coating is scrubbed with an abrasive or non-abrasive media using a cellulosic type sponge for 100 cycles. The soilant removal is assessed by measuring the CIE Y standard tristimulus value before and after the test.[11]


4.6    ASTM D4213
The purpose of this method is to measure scrub resistance. The primary differences from ASTM D 2486 method are: The scrub resistance is determined by weight loss of the paint film relative to a standard calibration panel. The test panel and calibration panel are scrubbed simultaneously. The scrubbing device is a Scotch-Brite™7448 abrasive pad.[12]


4.7    ASTM D4828
This test method determines the relative ease of removing soil and stains from interior coatings. The coating is applied to a black plastic panel and dried for seven days. The soilant can be user defined or the soilant described in ASTM D 3450 can also be used. A user defined liquid or powder cleaner is applied. The panel is scrubbed 100 cycles with a sponge. The soilant removal is assessed using gloss or color measurement.[13]


4.8    Outdated standard DIN 53778
This standard was recalled and replaced with ISO11998, but it is still used in some testing conditions by manufacturers. It is similar to ISO11998, but it uses a hog bristle brush instead of a scotch scouring pad, it runs over 1000 cycles for cleanability and 5000 cycles for scrub resistance instead of the 200 cycles of the ISO11998. The evaluation of the test results is done visually only.[14]
 

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Immagine 5 Gardner-scrub with ISO11998 attachment kit.

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Immagine 6 Gardner-scrub tester: Accessories needed for an abrasion test according to ISO 11998. Scotch brite pads (top right), automatic scrubbing tester (middle), black scrub panels (bottom left) and pad holder (bottom right).

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Immagine 7 A testing panel before scrubbing that has been soiled by crayons via a line perpendicular to the scrubbing direction.

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Immagine 8 Gardner-scrub ASTM D2486 - accessories needed for a scrubbing test according to ASTM D2486. Black scrubbing panels (front left), brass shims (front middle, on top of panels), nylon brush and pad holder (bottom right), automatic scrubbing tester (back middle).

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Immagine 9 Abrasion resistance test according to ASTM D2486. On the left is the reference panel, with clearly visible abrasion. On the right is the test panel, which shows one continuous line between the shims, indicating the point of failure for this coating.

5 Conclusion

Abrasion resistance in coatings and paints refers to the ability of a surface to withstand mechanical action such as rubbing, scraping, or erosion. It’s a key property of a coating, as it determines the durability and longevity as well as the protective properties. The principle behind it is the relationship between the hardness and flexibility of the coating and the roughness of the surface. It’s important to measure because high abrasion resistance means the painted surface can maintain its appearance and integrity under tough conditions for longer. The tests are typically done using specific abrasion testing methods, according to a variety of different international standards. Each standard defines a slightly different application and uses a different experimental setup. 


BYK-Gardner offeres a variety of abrasion testers with different accessory kits to meet ISO and ASTM standards.  In addition, the test results can be objectively evaluated using BYK-Gardner high quality spectro2guide family for color measurement, micro-gloss family for high to matt gloss evaluation and haze-gard for haze measurement of transparent products. All you need from one source. 
 

Standards and Literature

[1] Standard Terminology Relating to Wear and Erosion, Annual Book of Standards, Vol 03.02, ASTM, 1987, pp. 243–250.
[2] Paint and coating testing manual, Fourteenth Edition of the Gardner-Sward Handbook (Astm Manual Series), Joseph V. Koleske, 1995, pp. 525-554.
[3] J. Appl. Phys. 24, 981–988 (1953); J. F. Archard.
[4] Varenberg, M. Adjusting for Running-in: Extension of the Archard Wear Equation. Tribol Lett 70, 59 (2022).
[5] https://www.taberindustries.com/taber-rotary-abraser
[6] Kittel, Hans. Lehrbuch der Lacke und Beschichtungen. Band 8, Teil 1, Untersuchung und Prufung. Berlin: Verlag W.A. Colomb, 1980.
[7] EN 13300: Beschichtungsstoffe - Beschichtungsstoffe für Wände und Decken im Innenbereich - Einteilung.
[8] ISO 11998: Paints and varnishes — Determination of wet-scrub resistance and cleanability of coatings; ISO 1513:2010: Paints and varnishes - Examination and preparation of test samples; ISO 15528:2020: Paints, varnishes and raw materials for paints and varnishes - Sampling; ISO 3270: Paints and varnishes and their raw materials; Temperatures and humidities for conditioning and testing.
[9] ASTM D2486: Standard Test Methods for Scrub Resistance of Wall Paints.
[10] ISO 5685:2022: Road vehicles — Testing the abrasion resistance of automotive glazing with the windscreen wiper test.
[11] ASTM D3450-15 Standard Test Method for Washability Properties of Interior Architectural Coatings.
[12] ASTM D4213-08 Standard Test Method for Scrub Resistance of Paints by Abrasion Weight Loss.
[13] ASTM D4828-94 Standard Test Methods for Practical Washability of Organic Coatings.
[14] DIN 53778:1983: Emulsion paints for interior use; evaluation of cleanability and of wash and scrub resistance of coatings.

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