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Newsletter #173

 

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bill.jpgGreeting from Bill Boxer, Sr. Vice President, Apollo Sprayers International, Inc.

In this month’s article Greg Williams brilliantly answers the often asked question: So, what is viscosity, how does it affect coatings application, and what do the metrics mean to you?  I thought I knew it all, and to my surprise I learned a lot. So even if you are like me, and think you know viscosity, please take the time to read Greg’s article.

Now that the warm weather is here, I am reminded of one of my early finishing mistakes. I assumed that the bright sunlight would dry my cabinet doors quickly so I set up my horses outside and sprayed away. What a mess I made! Charles Neil answers the question – Why don’t you finish outside, in bright sunlight?                       

Our Fiftieth Anniversary Celebration Continues.

In June, when you buy an ECO3 or ECO5 we will include a Viscosity Cup, A Blow Off Tool and a 17 Piece Cleaning Kit.

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Apollo Turbine Blow OffTool

This handy tool can replace the air blow off tool that you use with your air compressor.  The only difference is that this Air Tool runs from your turbine system so you will be assured of always having warm, clean dry air that is free from contamination like oil and water, typically found in many air compressor lines

ViscosityCup 

A genuine Apollo viscosity cup will help you accurately measure your material thickness for perfect thinning/reducing every time. Calibrated to the equivalent of a Zahn 2. Read Greg’s article and see how the right viscosity is so important.

Cleaning Kit

A good cleaning kit is a must for keeping your spray gun in excellent condition. This 17-piece cleaning kit will help you get your spray gun super clean.

Here is a link to Apollo Distributors where you can buy your ECO3 or ECO5.

 

From the Apollo Sprayers Photo Archive

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John Darroch and Laurence Clutterbuck celebrate the 10,000th Sprayer sold by Apollo Sprayers. 1988

 

greg-williams-resized.jpgWHAT IS VISCOSITY AND WHY DO YOU CARE?

by Greg Williams   

As a finisher you may use a variety of tools and techniques to apply a coating material, such as a rag, brush, putty knife, spray gun or roller.   You may have had training on those tools, materials and processes, or you might have learned from experience some techniques that work for you.  You might have taken advantage of the learning opportunities offered by the internet.  You may even read the product data sheets available for your coating materials. If you do, you will often see “Viscosity” listed as one of the characteristics of the material.  So, what is viscosity, how does it affect coatings application, and what do the metrics mean to you?

First, viscosity is a measurement of resistance to flow. At room temperature, honey is a fairly viscous material.  It will flow, slowly, in response to the force of gravity.  When removed from the refrigerator, it will flow very slowly, and with a few seconds in the microwave, it will flow much more easily, and swiftly. 

While the property of viscosity is important to virtually all liquid coating applications, I’ll focus here on how it affects the spray application of coating materials.

The Product Data Sheet, Technical Data Sheet, or package directions will often show a “package viscosity”, and a recommendation for thinning or reducing the product.  Some products are sold as “Ready to Spray” (RTS) or “Ready To Use”  (RTU).  The recommended spraying viscosity will be different unless the material is sold as Ready to Spray (RTS), Ready to Use (RFU) or with similar wording indicating that reducers will not be needed under ordinary conditions.  More detailed instruction may specify a “spraying viscosity”, at a specific temperature most often at 77⁰F.  Obviously the manufacturer believes that the viscosity of the product is important.  Why is that?

When spraying a coating, we utilize energy to break up the coating into tiny liquid particles.  In a spray gun, conventional, compliant, HVLP, or LVLP, the pressure of the atomizing air provides that energy.  In an airless or air assisted airless, the fluid pump provides most of that energy.  The higher viscosity material requires more energy to atomize properly.   A very low viscosity material however, may be over atomized (creating more wasted material due to overspray, dry overspray causing a rough surface, too rapid drying impeding proper flow out, lower dry film thickness per coat). 

Spray equipment manufacturers will specify certain equipment or components (guns, needles, tips, orifices) for use with a range of viscosities, and the settings for fluid and air pressure may have to be changed to optimize the set up for varying viscosities.

Since the one of the primary objects of spray finishing is to apply the optimum amount of coating in the most efficient manner consistent with the quality desired, a finishing system that can apply a coating with the maximum film build in the least number of coats, with the least waste of material and labor is a good goal for the finisher.

When the atomized coating material contacts the surface of the object to be coated, the liquid particles, which are losing solvents already, come in contact with other particles, they will coalesce, or flow together, to form a more or less uniform film.  If these particles are of too high a viscosity, they will tend to form a less uniform or level film, may deliver insufficient volume, poor atomization, and orange peel or rough finish.  If they are of too low a viscosity, they will tend to flow excessively, making coating a vertical or tilted surface a problem.  Fatty edges, runs, and curtaining can occur.

There are many methods and tools for measuring viscosity.  For most uses in the coatings industry, in the laboratory, in production QC, and in the field, simple viscosity cups are used. These cups will momentarily contain a specified amount of liquid which is allowed to drain from the cup.  The time it takes to drain (efflux time) is measured with a stop watch.

The viscosity is usually expressed in seconds, as measured in a specified cup, at a specified temperature. While the most common cup for laboratory use is the Ford # 4 cup, the Zahn # 2 cup is more often seen in the field, as it is less expensive and easier to use, and provides adequate accuracy.  Conversion charts are available for all the types of cups.  For higher and lower viscosity materials, different cups, or even different measuring methods, may be called for. Testing is typically done at 25 °C. (77°F), and deviations from this temperature may induce errors in the results. Viscosity is inversely proportional to temperature! Liquids tested may vary in viscosity from 3 to 8% per degree of change (Centigrade, 1.5 to 4% per degree Fahrenheit)

The variation is greater in higher viscosity materials.  The variation is generally close to linear between 23°C and 27 °C (73.4°F and 80.6°F), but the user should be aware that the change may not be truly linear even within a narrow temperature range. Because even slight variations in the temperature of the fluid may affect viscosity, and thus efficiency in spraying, the air temperature, fluid temperature, and the temperature of the test equipment should be very close to 25° C(77°F). This is especially important when measuring fluids containing fast evaporating solvents, where evaporative cooling can be a factor.

ASTM D4212 is the standard governing viscosity measurements by the Zahn Cup.

Viscosity testing may be used to determine that a coating is within specifications, and to adjust the viscosity to suit the intended use in the intended application equipment.  Attempting to spray too high a viscosity material may result in insufficient volume delivered, poor atomization, and orange peel or rough finish.  In the attempt to spray a too viscous material, the operator may turn up the fluid and air pressure too high, thus increasing energy costs.  If viscosity is too low, more coats will be required to achieve the desired film thickness, waste will increase, and runs, sags, and curtaining will more likely occur.  Too thin a finish may also cause more dry overspray in low humidity/high temperature conditions. 

It is generally better to adjust the temperature of a coating to achieve the proper viscosity than to add reducers to compensate for cool material. Typically this is more economical and has fewer side effects than using reducers, retarders and flow enhancing additives.

Factors that affect viscosity in a liquid coating include:

  • the type and quantity of resin used
  • the type(s) and quantity of solvent used
  • temperature of the coating
  • type and quantity of additives
  • type, size, and quantity of pigments or other undissolved solids

 

 

1picture-news21.jpgTo use the dip type viscosity cup:

  1. Insure that the coating to be measured is at the specified temperature, is well mixed, and is free of air bubbles.
  2. Inspect the cup insuring that it is the appropriate cup for the type of material to be measured, that it is clean, especially in the orifice area.
  3. Hold the cup by the ring at the top and immerse the cup in the liquid so that the top edge of the cup is about ½ inch below the surface.
  4. Quickly withdraw the cup from the liquid and at the same time start the stopwatch.
  5. Carefully observe the efflux stream, and at the first distinct break in the stream, stop the watch.
  6. Record the number of seconds of drain time, to the nearest tenth of a degree, the temperature, and the type and size (#) of the cup.
  •  

The finisher should frequently test the viscosity of the materials he is spraying, as directed above.  Over time he will find the conditions that, with his equipment, yield the best results.  Only when it is determined that the equipment is appropriate for the material, and that the temperatures at application are correct, should reducer, retarder, or flow enhancers be added to the material to improve performance.

Equipment manufacturers often provide a viscosity cup with their equipment. Some are plastic, others are metal. You can purchase a plastic viscosity cup for as little as $5.00 and a precision viscosity cup for $200.00 or more. There are good metal viscosity cups priced between the two. They will provide the necessary measurement to establish recommended viscosity.

Accurate viscosity cups are precision instruments, and need to be properly maintained.  For very critical uses (generally in a lab environment, periodic recalibration of the instrument is recommended. Cleaning after use is important to maintain a consistent orifice size for future reference as well as care not to distort the orifice. For instance, a plastic cup dragged across a rough surface may change readings because of a roughening of the opening. 

I don’t deny that there are many good finishers who get their viscosity measurement by holding a stir stick, wet with lacquer, over the can and watch it drip.  With so many changes in material in the last few years, it would be prudent to use a more precise measure to ensure the best use of your expensive equipment and materials.  Viscosity is a very important property of the coating, and temperature of the coating is the most important variable that the finisher has to affect the viscosity.

ViscosityCupComparisonChart

ZAHN #2

FORD # 4

16

5

17

8

18

10

19

12

20

15

22

17

24

19

27

21

30

23

34

26

37

29

41

31

49

36

58

41

66

45

74

51

82

56

Bill Boxer comments:

Good viscosity is critical to good finish results. Viscosity is an important variable that relates to spray equipment especially HVLP Turbospray technology. When pressure cannot be increased beyond the maximum available PSI, viscosity becomes the critical variable to achieving desired results along with all of the other factors noted in Greg’s article. I’ve also seen some finishers successfully warm their material prior to spraying to lower viscosity without excessively thinning.

Learning more about coatings, their properties, how to adjust the coating and good viscosity along with understanding the variables of your application method will go a long way to achieving the perfect finish. I'm sure you will find this helpful.                         

The Apollo Viscosity Cup is Calibrated to the equivalent of a Zahn 2.

 

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 Questions from Our Finishers

 Q. I hear about drying and curing. What is the difference? When am I drying my finish and when am I curing the finish?

 A. The coating that you brush or spray needs to go from being a liquid to becoming a solid.    Some coatings, for example, nitrocellulose lacquer, will dry when the solvent evaporates. The  coating can become liquid by applying the same solvent. (the solvent you use to thin the coating  or clean your brushes or spray gun.)

Curing is a totally different process. This time changing from a liquid to a solid is a chemical process. Once this occurs, you cannot change the coating back to a liquid with the related thinner.

The key to knowing if you are drying or curing has to do with whether you can remove the coating with the related thinner. Drying means you can alter the coating with the related thinner. Curing means the finish can’t be changed with the related thinner.

Water based finishes are a different story. Water (the related reducer) won’t change the finish back to its original state because there are co-solvents in the coating and it is a chemical process. That means that the coating is both drying (water) and curing, (solvent.)

Q. I live in the North East and it’s getting hot out. For various reasons I need to spray outside in the warm weather. What do I need to know?

A. When spraying in direct sunlight the surface of the finish will skim over leaving the underlying finish still soft. The finish can then blister. This is most predominant in solvent base finishes. The surface dries and the air that is trapped in the pores of the wood cannot readily escape.

As the air rises it must now break through the dried film and forms a blister. It is a situation where the direct sunlight is the culprit and being able to shade the surface makes a huge difference.

For more info on this topic, please refer to Charles Neil’s excellent article.

http://news.thefinishingstore.com/index.php/finishing-in-hot-or-humid-weather/

Take some time and have some fun:

 

What Is Viscosity?

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