News & Blog

A Comprehensive Guide to Silicone, Urethane, and Acrylic Coatings

How Dimer Becomes Parylene

What is a Parylene Dimer?

Benefits of GALXYL Dimer

Waterproof vs. Water Resistant

Parylene vs. Teflon

How Long Does Parylene Last?

Waterproof PCBs with Parylene Coating

How to Choose the Best Conformal Coating for Your PCB

Parylene Coating Biocompatibility

Parylene N Versus Parylene C

Layering Conformal Coating

Types of Parylene and Uses

Dielectrics & Parylene

Advanced Coating Acquired by Novaria Group

Advanced Coating Adds GALXYL Dimer to Existing Coating Services

Comparing Parylene Removal Techniques

What to Know About MicroBlasting

The Basics of Parylene Removal

Parylene Optical Properties, Explained

When Parylene Coating Cracks

Which Conformal Coating Application is Right For You?

What is Dip Coating?

Removing Parylene Coating

All About Conformal Coating for Electronics

Conformal Coating for Military Applications

Parylene in Automotive Electronics

Your Guide to Conformal Coating for PCB’s

Conformal Coating Breakdown

Conformal Coating: The Benefits of Masking Boots

Parylene Versus Acrylic Coating

Where to Buy Parylene

3 Things to Know About Parylene Delamination

What Causes Parylene Failure?

What You Need to Know About Parylene Thicknesses

How Parylene Coating Has Revolutionized Diabetes Devices

The Importance of Cleaning for Parylene Coating

Parylene Makes Solar Energy Possible

Parylene in Action: Unmanned Aerial Vehicles

Parylene Protects Implantable Medical Devices

Parylene Coating for Elastomers and O-Rings

Medical Parylene: Saving Lives

Parylene Coating vs Nano Coating

How Parylene & MEMS Work Together

Corrosion Resistance in Conformal Coating

Parylene Coating In Action: Protecting Stents

Understanding Masking Processes for Parylene Coating

Choosing Between Potting and Conformal Coating

Parylene Coating in the Oil and Gas Industry

Parylene Coating and Temperature

How to Choose the Right Conformal Coating Company