Conformal Coating Application Processes: A Complete Guide
Spray, dip, selective robotic, brush/touch-up and Parylene compared
Choosing the right conformal coating application process is critical for PCB protection, yield, and cost control. This guide compares spray, dip, selective robotic, brush/touch-up, and Paryleneβincluding where each fits best, typical risks, and how to choose based on volume, geometry and reliability.
Quicklinks
| Process | More |
|---|---|
| Spray coating (manual / batch) | π |
| Dip coating (batch / inline) | π |
| Selective robotic coating (CNC valve) | π |
| Brush / touch-up (local repair) | π |
| Parylene deposition (vapour phase) | π |
| How to choose (selection checklist + matrix) | π |
How to Choose the Right Process
In practice, process choice is driven by volume, geometry/keep-outs, and required reliability. Use this quick checklist before you fall into βweβve always done it this wayβ.
- Volume & takt time: prototypes/low volume β spray/brush; mediumβhigh volume β selective robot /dip; stable families β dip/inline.
- Keep-outs & masking burden: heavy keep-outs favour selective spray; large βcoat everythingβ areas favour dip.
- Complex 3D geometry: under-components/cavities/sharp edges β Parylene often wins.
- Rework needs: if rework is frequent, some liquid chemistries/processes are easier to service than others.
- Risk profile: high-reliability electronics should prioritise repeatability + verification plans (inspection + thickness strategy).
Fast rule of thumb
- Spray: flexible + low capex, but operator-driven unless tightly controlled.
- Dip: great coverage and repeatability, but design must support drainage + masking workload can be high.
- Selective: best for controlled keep-outs and high repeatability, but requires programming/fixturing discipline.
- Brush: repair/touch-up only (not a βproduction processβ unless you accept variability).
- Parylene: true conformality and high performance, but specialist equipment + masking discipline still matters.
Next step: align your choice to a holistic conformal coating process (design β chemistry β application β inspection).
Spray Coating Application
Spray coating is one of the most flexible conformal coating application processes for prototypes, NPI and lowβmedium volumes. It can deliver excellent results when viscosity, distance, atomisation and flash-off are controlled.
- Pros: low equipment cost, flexible, easy to changeover, straightforward rework.
- Watch-outs: operator variability, overspray, edge build-up, orange peel and bubbles if flash-off/cure is wrong.
Useful links: viscosity control, orange peel and pinholes & bubbles.
Dip Coating Process
Dip coating provides highly repeatable coverage and is a long-established PCB coating process for uniform film buildβespecially when boards share similar form factors. Control comes from viscosity, dwell time, withdrawal speed, and drain orientation.
- Pros: excellent repeatability, strong coverage consistency, scalable to volume.
- Watch-outs: masking workload can be high; poor drainage causes pooling, wicking and edge build-up.
Useful links: capillary wicking, masking strategy and inline dip & automation.
Selective Robotic Conformal Coating
Selective coating uses CNC-controlled valves to apply coating precisely where needed. It is often the best choice for high mix production where masking labour is the dominant cost and risk.
- Pros: reduced masking, low waste, high repeatability, cleaner keep-outs.
- Watch-outs: capex + programming time, fixturing discipline, and βedge-definitionβ must be validated in inspection.
Tie selective coating to a defined control plan (recipes + viscosity + thickness verification) and use the Inspection & Quality Hub to set acceptance checks.
Brush Application / Touch-Up
Brush coating is mainly a repair and touch-up methodβuseful for rework, local coverage fixes, and low-volume situations where equipment is not justified.
- Pros: minimal equipment, targeted application, fast local repair.
- Watch-outs: cosmetic variation, thickness variability, higher risk of contamination and edge defects if uncontrolled.
Brush processes still need inspection rules and operator escalation pathwaysβotherwise they become a hidden defect generator.
Parylene Deposition
Parylene is applied via vapour deposition, giving true 3D conformality and a very uniform, pinhole-free barrierβparticularly valuable for dense assemblies, sharp edges, cavities and harsh environments.
- Pros: true conformality, excellent dielectric properties, uniform thin films across complex geometry.
- Watch-outs: specialist equipment; masking is still critical (often different to liquid masking); surface prep/outgassing control is essential.
Choosing the Right Conformal Coating Application Process
Each methodβspray, dip, selective, brush, and Paryleneβhas strengths and trade-offs. The best choice usually comes from balancing: volume, keep-outs/masking effort, design geometry, and reliability requirements.
- Production volume: low volume β spray/brush; mediumβhigh volume β selective/dip.
- Reliability: harsh environments may justify Parylene or tightly controlled selective processes.
- Cost drivers: labour + masking + rework usually dominateβnot just coating price.
- Design complexity: dense 3D structures may require Parylene or selective to manage keep-outs.
Explore upstream process control here: Conformal Coating Processes Hub and Defects Hub.
Why Choose SCH Services?
Partnering with SCH Services means more than just outsourcing β you gain a complete, integrated platform for
Conformal Coating, Parylene & ProShieldESD Solutions, alongside equipment, materials, and training, all backed by decades of hands-on expertise.
- βοΈ 25+ Years of Expertise β Trusted by aerospace, medical, defence, automotive, and electronics industries worldwide.
- π οΈ End-to-End Support β Selection, masking strategies, application methods, inspection, and ProShieldESD integration.
- π Scalable Solutions β From prototypes to high-volume production.
- π Global Reach β Responsive technical support across Europe, North America, and Asia.
- β Proven Reliability β Quality, consistency, and customer satisfaction across services, equipment, and materials.
π Call: +44 (0)1226 249019
β Email: sales@schservices.com
π¬ Contact Us βΊ
