Blistering

Educational Video for PIC, Collaboration with Veronika Žilinská

Close-up CGI rendering of paint surface at micro-level, highlighting coating porosity and blister initiation for industrial defect analysis.

Cross-section CGI of paint coating damage, showing adhesion failure mechanisms in protective coatings.

Artistic CGI visualization of a blistered paint surface beneath glowing light, combining scientific clarity with atmospheric rendering for industrial education.

Detailed CGI visualization of paint microstructure with moisture molecules penetrating surface, illustrating causes of blistering in coating systems.

PIC, a leading FROSIO certification educator, required an educational video to explain the complex causes and effects of paint blistering. The aim was to go beyond dry textbook instructions and deliver material that was scientifically rigorous yet visually engaging and memorable for students.

Cinematic CGI of ruptured paint coating exposing substrate, created to demonstrate industrial blistering defects and adhesion loss.

CGI educational close-up of water and oxygen molecules infiltrating paint coating, showing blistering formation mechanisms in protective layers.

Working from a detailed script by Sadegh Mahvidi and in collaboration with Veronika Žilinská, I was responsible for visualizing the microscopic and molecular processes behind the blistering phenomena, including osmotic blistering, cold-wall effect, electroendosmosis, and hydrogen gas evolution. Using a combination of advanced geometry node setups, fluid-acting particle systems, and layered procedural animations, I created dynamic cross-sections of painted substrates, dome-like coating deformations, and molecular interactions. This approach translated technical detail into captivating visual storytelling while retaining scientific accuracy.

Scientific CGI visualization of paint coating microstructure populated with migrating molecules, illustrating diffusion processes behind blister defects.

The final video transformed a dense technical subject into an epic, cinematic learning experience. It provided students with a clear, engaging, and in-depth understanding of blistering at both the molecular and material scale, delivering an unprecedented balance of educational clarity and visual impact.

High-detail CGI cutaway of multilayer paint coating with large blister, designed for industrial training and defect visualization.

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