A step-by-step approach to maintaining your conformal coating equipment for consistent quality, extended component life, and prevention of cross-contamination.
In PCB protection, conformal coating is the final and critical line of defense against moisture, dust, chemicals, and thermal stress. But much like the boards they protect, the machines that apply these coatings require their own form of protection: regular and thorough cleaning.
To maintain consistency, the often-overlooked activity of regular cleaning and flushing of selective coating equipment is essential. So cleaning your conformal coating machine, focusing on the critical areas: valves, cleaning materials, and the step-by-step process.
Part 1: Why Clean and Flush? The Benefits of Regular Maintenance
Before diving into the "how," it's important to understand the "why." Regular cleaning and flushing of your conformal coating system delivers four key benefits :
|
Benefit |
Description |
|
Extended Component Life |
Improves the working life of valves, nozzles, spray heads, and feed/return lines. |
|
Process Consistency |
Minimizes inconsistencies caused by clogs or buildups that affect flow rates and spray patterns. |
|
Quality Improvement |
Ensures reliable and consistent material usage, application thickness, and coating pattern width and edge definition. |
|
Contamination Prevention |
Prevents cross-contamination when switching between incompatible coating chemistries. |
⚠️ CRITICAL NOTE ON SILICONES: When a silicone coating chemistry is used, never use the same fluid lines, valves, or pressure pot when converting to other chemistries such as acrylics, urethanes, or synthetic rubbers. Silicone contamination is extremely difficult to remove and will cause severe adhesion failures (fisheyes and dewetting) in subsequent coatings .
Part 2: When to Clean – Timing Your Maintenance
Knowing when to clean is just as important as knowing how. Here are the specific circumstances that call for a thorough cleaning and flushing of your selective coating equipment :
|
Cleaning Trigger |
Timing / Condition |
|
Chemistry Changeovers |
When switching between different coating types (e.g., acrylic to urethane, synthetic rubber to acrylic). |
|
Extended Shutdowns |
After shutdowns of 48 hours or more for acrylics, synthetic rubbers, and non-moisture-sensitive materials. |
|
Moisture-Sensitive Materials |
At the end of every production day for moisture-sensitive materials, including most silicones and many urethanes. |
|
Performance Issues |
Any time inconsistent spray patterns or irregular flow rates are observed. |
Part 3: Cleaning Materials – Choosing the Right Solvent
Using the correct cleaning material is crucial for effective maintenance without damaging equipment. Here are the key considerations:
1. Use Manufacturer-Recommended Thinners, Not Strippers
Important: Always use thinners provided by your coating manufacturer, not stripping agents. Strippers are formulated for removing cured coatings from PCBs and are too aggressive for cleaning equipment .
Compatible solvents typically include:
MEK (Methyl Ethyl Ketone)
Xylene
Commercial thinners matched to your specific coating chemistry
2. Commercial Cleaning Products
Several specialized cleaning products are available for conformal coating equipment:
|
Product |
Description |
Application |
|
Electrolube OP9004 |
Non-flammable solvent blend designed to swell and soften cured epoxy, polyurethane, and chemically resistant conformal coatings. |
Suitable for cleaning machines by wiping; slower evaporation rate for effective cleaning. |
|
Dow Corning OS-120 |
Low-VOC cleaning fluid specifically for removing residual silicone from dispensing equipment. |
Ideal for silicone coating applications where low-VOC compliance is required. |
|
Electrolube ULS400D |
Fast-drying solvent for quick and efficient cleaning of electrical equipment; removes flux residues and acrylic conformal coatings. |
Suitable for PCB cleaning; contains flammable solvent so avoid use on live equipment. |
|
Surclean SC 400 |
Blend of glycol ethers and hydrocarbons for fast removal of uncured residues. |
While designed for stencils, similar principles apply; ultra low-VOC and biodegradable. |
3. The Fluorescence Test
Many conformal coatings contain fluorescing agents to aid in inspection under UV light. This feature can also be used to verify cleaning effectiveness:
Turn on the machine's blacklight (UV light)
Flush with solvent until the flushed material stops fluorescing blue
If the coating does not contain fluorescing agents, flush until the coating appears to be eliminated
Part 4: Cleaning Valves – The Heart of the Machine
Valves are the most critical components requiring careful attention during cleaning. Here are specific considerations:
Valve-Specific Precautions
Needle Valve Care: When cleaning, do not clean or mix the needle valve with other devices to prevent damaging the needle tip. Never poke other objects with the needle valve .
Air Cap Removal: Before flushing, remove the air cap (if applicable) of the valve and back off the micrometer (if applicable) to allow for more needle travel .
Cleaning Frequency for Valves
24-Hour Rule: If the spray gun is not used for more than 24 hours, it must be cleaned .
Daily Cleaning: After using coating every day, always wash the paint inlet pipe with thinner. Remove the paint inlet pipe and spray an appropriate amount of thinner at least 10 times .
Soaking and Scrubbing: Soaking and scrubbing methods improve reactivity and cleaning effectiveness .
Part 5: The Step-by-Step Cleaning and Flushing Process
Here is the complete procedure for cleaning and flushing your conformal coating equipment. Note: Consult your equipment manufacturer for machine-specific details before attempting .
Step 1: Preparation
Remove excess coating from the reservoir or pressure pot
Remove the air cap (if applicable) and back off the micrometer to permit more needle travel
Step 2: Initial Flush
Flush the coating from the coating reservoir, fluid lines, and valve until no coating comes out
Use a compatible solvent/thinner (MEK, xylene, or commercial thinner recommended by your coating manufacturer)
Step 3: Solvent Flush with Fluorescence Check
Add a compatible solvent/thinner to the fluid reservoir
Turn on the machine's blacklight
Flush until the solvent/thinner stops fluorescing blue (if coating contains fluorescing agents)
Otherwise, flush until coating appears to be eliminated
Step 4: Final Flush and Preparation for Restart
Add a small amount of additional thinner
Flush just until the fluid becomes spray (the transition from stream to spray indicates flushing fluid is running out)
Stop immediately—this leaves a very small amount of solvent/thinner in the fluid lines/valve, which is correct
Step 5: Restart Procedure
Flush the remaining solvent from the fluid reservoir, fluid lines, and valves
The machine and valve are now ready to be filled with fresh coating
Part 6: Pre-Cleaning PCBs – A Critical Prerequisite
While cleaning the machine is essential, don't overlook the importance of cleaning the PCBs themselves before coating. Contamination on boards can cause coating defects regardless of how clean your machine is .
Common Contaminants to Remove
|
Contaminant Type |
Source |
|
Residual etchants |
Original bare board fabrication |
|
Dust |
Bare board drilling, cutting, and scoring |
|
Fingerprints and skin oils |
Board handling |
|
Silicone and other oils |
Migrating from other processes |
|
Flux residues |
Soldering process (most common concern) |
The "No-Clean" Flux Myth
"No-clean" fluxes are often left on boards even when coating will be applied. However, the benign glassy layer that encapsulates ionic residues in no-clean fluxes can be disrupted by the aggressive solvents in conformal coatings (like acetone or xylene). This can release ionic contamination underneath the coating or distribute it within the resin, impacting the integrity of the cured coating .
Recommendation: Cleaning before coating is strongly recommended, even with no-clean flux .
Cleaning Methods for PCBs
|
Method |
Description |
Best For |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
Manual Cleaning |
Aerosol or pump sprays, solvents in pan/tray; agitation with brush, swab, or wipe. |
Low volume, prototyping, repair |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
Ultrasonic |
Sound waves create bubbles that implode on surface to break up residues. |
High-volume, thorough cleaning |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
Vapor Degreasing |
Cleaning in solvent vapor phase or submerged sump, often with ultrasonic action. |
Critical applications, complex geometries |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
Batch/Inline Systems |
Spray equipment with water-based cleaners that wash, rinse, and dry. |
A step-by-step approach to maintaining your conformal coating equipment for consistent quality, extended component life, and prevention of cross-contamination. In PCB protection, conformal coating is the final and critical line of defense against moisture, dust, chemicals, and thermal stress. But much like the boards they protect, the machines that apply these coatings require their own form of protection: regular and thorough cleaning. To maintain consistency, the often-overlooked activity of regular cleaning and flushing of selective coating equipment is essential. So cleaning your conformal coating machine, focusing on the critical areas: valves, cleaning materials, and the step-by-step process. Part 1: Why Clean and Flush? The Benefits of Regular Maintenance Before diving into the "how," it's important to understand the "why." Regular cleaning and flushing of your conformal coating system delivers four key benefits : Benefit Description Extended Component Life Improves the working life of valves, nozzles, spray heads, and feed/return lines. Process Consistency Minimizes inconsistencies caused by clogs or buildups that affect flow rates and spray patterns. Quality Improvement Ensures reliable and consistent material usage, application thickness, and coating pattern width and edge definition. Contamination Prevention Prevents cross-contamination when switching between incompatible coating chemistries. ⚠️ CRITICAL NOTE ON SILICONES: When a silicone coating chemistry is used, never use the same fluid lines, valves, or pressure pot when converting to other chemistries such as acrylics, urethanes, or synthetic rubbers. Silicone contamination is extremely difficult to remove and will cause severe adhesion failures (fisheyes and dewetting) in subsequent coatings . Part 2: When to Clean – Timing Your Maintenance Knowing when to clean is just as important as knowing how. Here are the specific circumstances that call for a thorough cleaning and flushing of your selective coating equipment : Cleaning Trigger Timing / Condition Chemistry Changeovers When switching between different coating types (e.g., acrylic to urethane, synthetic rubber to acrylic). Extended Shutdowns After shutdowns of 48 hours or more for acrylics, synthetic rubbers, and non-moisture-sensitive materials. Moisture-Sensitive Materials At the end of every production day for moisture-sensitive materials, including most silicones and many urethanes. Performance Issues Any time inconsistent spray patterns or irregular flow rates are observed. Part 3: Cleaning Materials – Choosing the Right Solvent Using the correct cleaning material is crucial for effective maintenance without damaging equipment. Here are the key considerations: 1. Use Manufacturer-Recommended Thinners, Not Strippers Important: Always use thinners provided by your coating manufacturer, not stripping agents. Strippers are formulated for removing cured coatings from PCBs and are too aggressive for cleaning equipment . Compatible solvents typically include: MEK (Methyl Ethyl Ketone) Xylene Commercial thinners matched to your specific coating chemistry 2. Commercial Cleaning Products Several specialized cleaning products are available for conformal coating equipment: Product Description Application Electrolube OP9004 Non-flammable solvent blend designed to swell and soften cured epoxy, polyurethane, and chemically resistant conformal coatings. Suitable for cleaning machines by wiping; slower evaporation rate for effective cleaning. Dow Corning OS-120 Low-VOC cleaning fluid specifically for removing residual silicone from dispensing equipment. Ideal for silicone coating applications where low-VOC compliance is required. Electrolube ULS400D Fast-drying solvent for quick and efficient cleaning of electrical equipment; removes flux residues and acrylic conformal coatings. Suitable for PCB cleaning; contains flammable solvent so avoid use on live equipment. Surclean SC 400 Blend of glycol ethers and hydrocarbons for fast removal of uncured residues. While designed for stencils, similar principles apply; ultra low-VOC and biodegradable. 3. The Fluorescence Test Many conformal coatings contain fluorescing agents to aid in inspection under UV light. This feature can also be used to verify cleaning effectiveness: Turn on the machine's blacklight (UV light) Flush with solvent until the flushed material stops fluorescing blue If the coating does not contain fluorescing agents, flush until the coating appears to be eliminated Part 4: Cleaning Valves – The Heart of the Machine Valves are the most critical components requiring careful attention during cleaning. Here are specific considerations: Valve-Specific Precautions Needle Valve Care: When cleaning, do not clean or mix the needle valve with other devices to prevent damaging the needle tip. Never poke other objects with the needle valve . Air Cap Removal: Before flushing, remove the air cap (if applicable) of the valve and back off the micrometer (if applicable) to allow for more needle travel . Cleaning Frequency for Valves 24-Hour Rule: If the spray gun is not used for more than 24 hours, it must be cleaned . Daily Cleaning: After using coating every day, always wash the paint inlet pipe with thinner. Remove the paint inlet pipe and spray an appropriate amount of thinner at least 10 times . Soaking and Scrubbing: Soaking and scrubbing methods improve reactivity and cleaning effectiveness . Part 5: The Step-by-Step Cleaning and Flushing Process Here is the complete procedure for cleaning and flushing your conformal coating equipment. Note: Consult your equipment manufacturer for machine-specific details before attempting . Step 1: Preparation Remove excess coating from the reservoir or pressure pot Remove the air cap (if applicable) and back off the micrometer to permit more needle travel Step 2: Initial Flush Flush the coating from the coating reservoir, fluid lines, and valve until no coating comes out Use a compatible solvent/thinner (MEK, xylene, or commercial thinner recommended by your coating manufacturer) Step 3: Solvent Flush with Fluorescence Check Add a compatible solvent/thinner to the fluid reservoir Turn on the machine's blacklight Flush until the solvent/thinner stops fluorescing blue (if coating contains fluorescing agents) Otherwise, flush until coating appears to be eliminated Step 4: Final Flush and Preparation for Restart Add a small amount of additional thinner Flush just until the fluid becomes spray (the transition from stream to spray indicates flushing fluid is running out) Stop immediately—this leaves a very small amount of solvent/thinner in the fluid lines/valve, which is correct Step 5: Restart Procedure Flush the remaining solvent from the fluid reservoir, fluid lines, and valves The machine and valve are now ready to be filled with fresh coating Part 6: Pre-Cleaning PCBs – A Critical Prerequisite While cleaning the machine is essential, don't overlook the importance of cleaning the PCBs themselves before coating. Contamination on boards can cause coating defects regardless of how clean your machine is . Common Contaminants to Remove Contaminant Type Source Residual etchants Original bare board fabrication Dust Bare board drilling, cutting, and scoring Fingerprints and skin oils Board handling Silicone and other oils Migrating from other processes Flux residues Soldering process (most common concern) The "No-Clean" Flux Myth "No-clean" fluxes are often left on boards even when coating will be applied. However, the benign glassy layer that encapsulates ionic residues in no-clean fluxes can be disrupted by the aggressive solvents in conformal coatings (like acetone or xylene). This can release ionic contamination underneath the coating or distribute it within the resin, impacting the integrity of the cured coating . Recommendation: Cleaning before coating is strongly recommended, even with no-clean flux . Cleaning Methods for PCBs Method Description Best For Manual Cleaning Aerosol or pump sprays, solvents in pan/tray; agitation with brush, swab, or wipe. Low volume, prototyping, repair Ultrasonic Sound waves create bubbles that implode on surface to break up residues. High-volume, thorough cleaning Vapor Degreasing Cleaning in solvent vapor phase or submerged sump, often with ultrasonic action. Critical applications, complex geometries Batch/Inline Systems Spray equipment with water-based cleaners that wash, rinse, and dry.
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