Auger Valves vs. Progressive Cavity Pumps: Best Use for Thermal Paste

Auger Valves vs. Progressive Cavity Pumps: Best Use for Thermal Paste

Mar 31, 2022
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Nordson-EFD-797PCP-2KPCP Pump and 794-TC Valve

Mini Selection Guide for Dispensing Thermal Interface Materials (TIMs)

It should come as no surprise that electronics manufacturers continue to seek better ways to dissipate heat generated from smaller, more powerful devices that operate at higher temperatures than ever before. Many turn to thermal interface materials (TIM) for electronic systems that require thermal management. So much so that according to recent studies, the global thermal interface materials market, valued at $2.25 billion in 2020, is expected to grow to $4.47 billion by 2027.

As a leading provider of fluid dispensing equipment and as specialists in the dispensing of thermal compounds, Nordson EFD often witnesses these types of trends first-hand as we notice a rise in TIM applications in the field.

Specifically, we are seeing more and more TIM applications for automotive light detection and ranging (LiDAR) systems for autonomous cars and advanced driver assist systems (ADAS). Though autonomous vehicles may still be 5-10 years away, many original equipment manufacturers (OEMs) are releasing vehicles with LiDAR as part of their ADAS.

LiDAR sensor reliability is critical to the effectiveness of these systems. As such, sensor manufacturers are increasingly seeking the most reliable method for dispensing thermal interface materials to cover gaps required to reduce the temperature and increase the efficiency and longevity of these electronic components.

So, which dispensing method should you use? Nordson EFD offers several options for applying TIMs, and it varies depending on the type of material and the deposit volume required.


Manual vs. Automated Dispensing

Though manual application is an option, and Nordson EFD offers a number of benchtop fluid dispensers, the operator-to-operator inconsistency can be a challenge when what you need is an accurate dispense, every time. Recent improvements to benchtop dispensers such as the full operator lockout offered by our UltimusPlus dispenser with network connectivity are important to mention here because these dispensers can be used in both manual and automated applications. They can essentially grow with you as you scale production.

TIM: Dispensing on PCB 

However, often we find manufacturers opting for automated dispensing either with a tabletop dispensing robot or an integrated conveyor-fed line since thermal interface material patterns are more and more complex to cover the largest possible area on a part.

797PCP 1K Pump: With PRO Series Dispensing Thermal Compound on PCB 

Of course, whether you choose to apply the TIM manually or integrate the dispensing head into an automated cell or conveyor-fed line will depend on the production throughput or number of parts you’re assembling.


Auger Valves vs. Progressive Cavity Pumps

Because thermal interface materials often contain fillers such as ceramic particles, they may be highly viscous and abrasive. And since abrasive materials can harm the inner workings of most mechanical dispensing heads, you should carefully consider the type of thermal compound and dispensing equipment you choose.

In addition to our benchtop fluid dispensers, Nordson EFD offers two main types of dispensing heads for thermal interface materials: auger valves and progressive cavity pumps.

Both operate using rotating geometries that deliver the material from the fluid feeding tube to the dispensing tip. The rotating inner workings of these dispensing heads allow them to deliver the fluid with the least amount of shear possible. Therefore, they allow the TIM to maintain its properties to ensure you will get reliable heat transfer performance.

However, there are key differences between the two dispensing methods to be aware of when trying to decide which one is best for your fluid.

 

Auger Valves

These dispensing heads use screw feed principles combined with precision time and pressure controls to ensure consistent fluid deposits for high-throughput applications. Our 794-TC auger valve is available with a range of screw gap sizes to ensure the best performance based on your TIM particle size.

Its auger screw is made from tungsten carbide (TC), which provides the best resistance against damage caused by highly abrasive pastes. This ensures a longer dispensing valve life for high-volume production.

Because there are no seals in auger valves, in general, this makes them more resistant to wear since seals wear out faster when abrasive particles rub against them.

However, precisely because these valves have no seals, they are not the right choice for thin or low-viscosity materials. If dispensing fluids with viscosities less than about 30,000 centipoise, you may see fluid dripping or streaming out of the dispense tip attached to the auger valve.

In addition, auger valves are designed specifically for one-part fluids, therefore you would not choose an auger valve for a two-part TIM application.

794TC: With E Series Dispensing TIM Pattern

Progressive Cavity Pumps

Progressive cavity pumps are a volumetric or positive displacement method of dispensing that allows you to set the exact volume you wish to dispense and get that exact volume onto the part, every time. These pumps provide highly precise fluid volume accuracy and repeatability at ± 1%.

Our 797PCP Series pump’s modular design is based on the progressive cavity principle where its core components – a rotor and stator – form a perfectly sealed metering chamber. This allows for continuous volumetric dispensing independent of fluid viscosity.

However, for TIM applications because these pumps feature a seal, they are prone to wear out faster than an auger valve. Yet, because of the seal they can dispense a broader range of fluid viscosities.

For two-part TIMs, you would absolutely choose the 797PCP-2K pump because it precisely meters accurate ratios of part A and part B materials through static mixers for highly repeatable dispensing with fluid deposit accuracy at ± 1%.

In addition, because the 797PCP pump comes in a range of sizes it can accommodate nearly any thickness of the dispense pattern required by your application because its flow rate is five times higher than the 794-TC auger valve.

 

797PCP-2K Progressive Cavity Pumps: With 2K Spiral Mixer and EFD Syringe Barrels 

Static Mixers for Two-Part Material

As with any dispensing application, selection of the best possible dispensing components for your application is essential to the success of the application itself. This is especially true for the component at the point of dispense. For two-part fluids, especially, this is a critical step.

Nordson EFD offers high-quality two-part static mixers for the application of two-component thermal compounds. Our Series 190 spiral mixers and Series 295 square mixers are ideal for TIM dispensing.

We offer 15 types of spiral bayonet mixers with different element diameters, number of mixing elements, and housing outlets for your unique application. We offer 3 types of square bayonet mixers with different housing outlets, including a luer lok outlet for precise dispensing with a dispense tip attachment.

Our experienced application specialists can suggest the right static mixer for your process, thus simplifying system selection to get you set up faster.

Series 190: Disposable Plastic Spiral Bayonet Mixers


One-Stop Shop for TIM Dispensing

In addition to providing the fluid packaging and dispensing systems for thermal interface materials, Nordson EFD also provides a unique line of non-silicone thermal compounds that ensure reliable heat transfer over a longer period of time than most industrial TIMs.

TIM: Silicone-Free Thermal Interface Material

If you have any questions about our solutions for dispensing thermal interface materials or the materials themselves, don’t hesitate to contact us at [email protected] for expert help.

 

 


 

Let us recommend a system that works for your application. Equipment Recommendations

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